阅读说明：本技术 一种粮油生产用具有二次榨取结构的榨油装置 (Grain oil production is with device that extracts oil that has secondary and squeezes structure ) 是由 叶宁 于 2021-02-01 设计创作，主要内容包括：本发明涉及榨油设备技术领域,具体为一种粮油生产用具有二次榨取结构的榨油装置,包括装置本体,所述装置本体包括支撑座,所述支撑座的一侧固定安装有第一支撑腿,所述第一支撑腿一侧的支撑座上固定安装有辅助杆,所述辅助杆和第一支撑腿的内侧固定安装有控制面板。本发明通过设置有电动滑轨、毛刷、辅助滤网、阻挡板和入油槽,这样使得榨油筒完成第一次挤压出油之后的原料杂质会被阻挡板阻挡,从而利用逐渐增加的原料杂质之间相互挤压实现二次挤压出油,使得榨油原料可以得到充分利用,一定程度上增加了本装置的出油量,让本装置更加具有环保性,以及同时毛刷的清理效果,可以细小的原料残渣停留在小孔径滤网板上影响其正常工作。(The invention relates to the technical field of oil pressing equipment, in particular to an oil pressing device with a secondary pressing structure for grain and oil production. According to the invention, the electric slide rail, the brush, the auxiliary filter screen, the barrier plate and the oil inlet groove are arranged, so that raw material impurities after the oil extraction cylinder finishes the first oil extraction extrusion can be blocked by the barrier plate, and the secondary oil extraction is realized by utilizing mutual extrusion among the gradually increased raw material impurities, so that the raw material for oil extraction can be fully utilized, the oil extraction amount of the device is increased to a certain extent, the device has more environmental protection, and meanwhile, the cleaning effect of the brush can ensure that fine raw material residues can stay on the small-aperture filter screen plate to influence the normal work of the device.)

1. The utility model provides a grain oil production is with device that extracts oil that has secondary and squeezes structure, includes device body (1), its characterized in that: the device body (1) comprises a supporting seat (110), a first supporting leg (111) is fixedly mounted on one side of the supporting seat (110), an auxiliary rod (120) is fixedly mounted on the supporting seat (110) on one side of the first supporting leg (111), a control panel (121) is fixedly mounted on the inner sides of the auxiliary rod (120) and the first supporting leg (111), an oil squeezing box (113) is fixedly mounted at one end of the first supporting leg (111), one end of the oil squeezing box (113) is connected onto the auxiliary rod (120), a single chip microcomputer (122) is fixedly mounted at one end of the auxiliary rod (120), second supporting legs (112) are fixedly mounted on two sides of the oil squeezing box (113), one end of the single chip microcomputer (122) is connected onto the supporting seat (110), a placing frame (114) is fixedly mounted on the oil squeezing box (113) on one side of the single chip microcomputer (122), and a motor (115) is fixedly mounted at one end of the placing frame (114), the oil extraction tank (113) on one side of the placing rack (114) is embedded with the charging barrel (117), the output end of the motor (115) is sleeved with the transmission rod (116), the transmission rod (116) extends through a through hole in the charging barrel (117) and is sleeved on the auxiliary rod (120) through a bearing, the transmission rod (116) inside the charging barrel (117) is sleeved with the crushing barrel (118), one end of the charging barrel (117) is provided with the material blocking mechanism (4), the oil extraction bin (127) is arranged inside the oil extraction tank (113), the inner wall of the oil extraction bin (127) is fixedly provided with the stabilizing sleeve (124), the inner wall of the oil extraction bin (127) on one side of the stabilizing sleeve (124) is fixedly provided with the stabilizing rod (126), the inner walls of the oil extraction bin (127) on the inner sides of the stabilizing sleeve (126) and the stabilizing sleeve (124) are embedded with the large-aperture screen plate (128), and the inner wall of the oil extraction bin (127) on one side of the stabilizing sleeve (124) is sleeved with the linking rod One side of the linkage rod (123) extends through a through hole in the stabilizing sleeve (124), one side of the stabilizing sleeve (124) is sleeved with the oil extracting barrel (125), one side of the oil extracting barrel (125) is sleeved on the stabilizing rod (126) through a bearing, the transmission rod (116) on one side of the charging barrel (117) is sleeved with the transmission belt (119), the other end of the transmission belt (119) is sleeved on the linkage rod (123), the supporting seat (110) at one end of the oil extracting barrel (113) is fixedly provided with the oil receiving tank (129), one side of the oil receiving tank (129) is connected to the first supporting leg (111), the inner surface of the oil receiving tank (129) is fixedly provided with the liquid baffle plate (130), one side of the liquid baffle plate (130) is fixedly provided with the small-aperture screen plate (131), and the other side of the small-aperture screen plate (131) is connected to the inner surface of the oil receiving tank (129), the oil receiving tank (129) at one end of the small-aperture filter screen plate (131) is fixedly provided with electric sliding rails (132) on two sides of the inner wall of the oil receiving tank (129), two electric sliding plates (133) are slidably arranged on the inner side of the electric sliding rails (132), an extruding mechanism (2) is arranged inside the electric sliding plates (133), one end of each electric sliding plate (133) is provided with a brush (134), one side of each electric sliding plate (133) is fixedly provided with a pull rod (135), the number of the pull rods (135) is two, one end of each pull rod (135) is fixedly provided with a barrier plate (136), one side of each barrier plate (136) is provided with a stabilizing mechanism (3), the number of the stabilizing mechanisms (3) is three, an oil inlet groove (137) is formed in the inner wall of an oil pressing bin (127) at one side of each stabilizing rod (126), and an auxiliary filter screen (138) is, go into and seted up clearance groove (141) on the inner wall of oil groove (137), go into fixed mounting on baffle (136) of oil groove (137) one side and have clearance pole (142), go into inside clearance pole (142) one side fixed mounting of oil groove (137) strip brush (143).

2. The oil pressing device with the secondary pressing structure for grain and oil production according to claim 1, characterized in that: one side of the oil receiving tank (129) is embedded with a water level window (139), and scale marks (140) are arranged on one side of the oil receiving tank (129) on two sides of the water level window (139).

3. The oil pressing device with the secondary pressing structure for grain and oil production according to claim 1, characterized in that: extrusion mechanism (2) are including extrusion groove (210), extrusion groove (210) have been seted up to the inside of electric skateboard (133), fixed mounting has fixed plate (211) on the inner wall of extrusion groove (210), connecting rod (212) have been inserted in the through-hole of seting up on fixed plate (211), and the quantity of connecting rod (212) is four, the one end fixed mounting of fixed plate (211) has spring (213), and the quantity of spring (213) is two, two the other end of spring (213) is connected on brush (134).

4. The oil pressing device with the secondary pressing structure for grain and oil production according to claim 3, characterized in that: four the one end fixed mounting of connecting rod (212) has first magnet strip (214), fixed mounting has second magnet strip (215), two on the extrusion groove (210) inner wall of first magnet strip (214) one end fixed mounting has third magnet strip (216), two on the oil receiving tank (129) internal surface of electronic slide rail (132) one end fixed mounting has wooden separator plate (218) on the oil receiving tank (129) inner wall of electronic slide rail (132) one side, and the shape of wooden separator plate (218) one end is the toper, separation groove (217) have been seted up on electronic slide (133) of wooden separator plate (218) one end, and separation groove (217) and extrusion groove (210) communicate with each other.

5. The oil pressing device with the secondary pressing structure for grain and oil production according to claim 1, characterized in that: the stabilizing mechanism (3) comprises a clamping rod (310), the clamping rod (310) is connected to the blocking plate (136), and a clamping groove (311) is formed in the oil squeezing box (113) on one side of the clamping rod (310).

6. The oil pressing device with the secondary pressing structure for grain and oil production according to claim 5, characterized in that: the clamping rod (310) is provided with two rolling grooves (312), and the inner walls of the two rolling grooves (312) are sleeved with rollers (313) through rotating shafts.

7. The oil pressing device with the secondary pressing structure for grain and oil production according to claim 1, characterized in that: stock stop (4) are including mount pad (410), and the quantity of mount pad (410) is two, two mount pad (410) all are connected on going into feed cylinder (117), two the one end of mount pad (410) has all cup jointed striker plate (411), two through the pivot the equal fixed mounting in one side of striker plate (411) one end has balancing weight (412), two striker plate (411) are close to the one end fixed mounting who goes into feed cylinder (117) has rubber block (413).

8. The oil press device with the secondary pressing structure for grain and oil production according to claim 7, characterized in that: the inner wall of the charging barrel (117) is fixedly provided with a first material guide plate (414), the shape of the second material guide plate (415) is inclined, the inner surface of the charging barrel (117) at one end of the first material guide plate (414) is fixedly provided with a second material guide plate (415), and the shape of the second material guide plate (415) is inclined.

Technical Field

The invention relates to the technical field of oil pressing equipment, in particular to an oil pressing device with a secondary pressing structure for grain and oil production.

Background

The ancient method oil extraction technology is characterized in that the technology is a research technology, the technology is a research experience accumulation, each process of the traditional ancient method wood extraction is very researched, and the traditional ancient method wood extraction technology has the key points such as duration, strength, time and the like; the complicated process of ancient oil extraction does not fade gradually due to the lapse of time, but undergoes continuous improvement and refinement, the intelligent crystals of folk generation workers are condensed, innovation is carried out, the ancient oil extraction is replaced by mechanical oil extraction equipment along with the progress of life, and simultaneously the oil extraction rate and the working efficiency of the oil extraction equipment are gradually improved along with the lapse of time, for example, the invention is authorized by the publication No. CN108263010B, the ancient oil extraction equipment can simultaneously carry out cold extraction and hot extraction, more amount of extraction can be carried out at one time, the oil extraction efficiency is improved, the peanuts are secondarily crushed, the crushing rate of the peanuts is improved, and the oil extraction rate is improved to a certain extent, an oil extraction barrel in the equipment is formed by movably combining an inner barrel body and an outer barrel body, and a return spring is arranged to discharge residues after pressing; for example, the invention disclosed in the publication No. CN109049795A is configured to crush raw materials by rotating and stirring the raw materials inside the crush tank through a paddle type stirring rod and a screw type stirring rod of the crush tank, so as to achieve an effect of crushing the raw materials, turn-over heat and convey the raw materials through a heater for heating the tank and a driving screw conveyor rod, so as to achieve an effect of heating the raw materials, and press oil through cooperation of a pressure plate and a bearing plate in the oil tank, so as to achieve an effect of pressing tung oil.

Therefore, the existing oil pressing equipment has many advantages, the single oil pressing equipment which can crush or increase the volume for many times can increase the oil amount to a certain extent, but the residue in the oil residue is not fully recycled, so that the waste of raw materials is increased, the available value of the raw materials is reduced, meanwhile, the oil pressing work cannot be performed when the waste is discharged, the working efficiency is reduced, and therefore, the oil pressing device with the secondary pressing structure for grain and oil production needs to be designed.

Disclosure of Invention

The invention aims to provide an oil pressing device with a secondary pressing structure for grain and oil production, which aims to solve the problems that although the oil quantity can be improved to a certain extent by single oil pressing equipment which is used for crushing for multiple times or increasing the volume, the residue in oil residue is not fully recovered, so that the waste of raw materials is increased, the available value of the raw materials is reduced, and meanwhile, the oil pressing work cannot be carried out during waste discharge, and the work efficiency is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: an oil expression device with a secondary expression structure for grain and oil production comprises a device body, wherein the device body comprises a supporting seat, a first supporting leg is fixedly installed on one side of the supporting seat, an auxiliary rod is fixedly installed on the supporting seat on one side of the first supporting leg, a control panel is fixedly installed on the inner sides of the auxiliary rod and the first supporting leg, an oil expression tank is fixedly installed at one end of the first supporting leg, one end of the oil expression tank is connected onto the auxiliary rod, a single chip microcomputer is fixedly installed at one end of the auxiliary rod, second supporting legs are fixedly installed on two sides of the oil expression tank, one end of the single chip microcomputer is connected onto the supporting seat, a placing frame is fixedly installed on the oil expression tank on one side of the single chip microcomputer, a motor is fixedly installed at one end of the placing frame, a charging barrel is installed in the oil expression tank on one side of the placing frame in an embedded, and the transmission rod extends through the through hole on the feeding cylinder and is sleeved on the auxiliary rod through a bearing, a crushing cylinder is sleeved on the transmission rod inside the feeding cylinder, one end of the feeding cylinder is provided with a material blocking mechanism, an oil pressing bin is arranged inside the oil pressing tank, a stabilizing sleeve is fixedly arranged on the inner wall of the oil pressing bin, a stabilizing rod is fixedly arranged on the inner wall of the oil pressing bin on one side of the stabilizing sleeve, a large-aperture filter screen plate is embedded and arranged on the inner wall of the oil pressing bin on the inner side of the stabilizing sleeve and the inner wall of the oil pressing bin on one side of the stabilizing sleeve, a linkage rod is sleeved on one side of the oil pressing bin on one side of the stabilizing sleeve through a bearing, one side of the linkage rod extends through the through hole on the stabilizing sleeve, the oil pressing cylinder is sleeved on one side of the oil pressing cylinder, a transmission belt is sleeved on the transmission rod on one side of the feeding cylinder, and the other end of, the oil recovery device is characterized in that an oil recovery tank is fixedly mounted on a supporting seat at one end of the oil extraction tank, one side of the oil recovery tank is connected onto a first supporting leg, a liquid baffle plate is fixedly mounted on the inner surface of the oil recovery tank, a small-aperture filter screen plate is fixedly mounted on one side of the liquid baffle plate, the other side of the small-aperture filter screen plate is connected onto the inner surface of the oil recovery tank, electric slide rails are fixedly mounted on two sides of the inner wall of the oil recovery tank at one end of the small-aperture filter screen plate, two electric slide plates are slidably mounted on the inner sides of the electric slide rails, an extrusion mechanism is arranged inside the electric slide plates, a brush is arranged at one end of each electric slide plate, pull rods are fixedly mounted on one side of each electric slide plate, a barrier plate is fixedly mounted at one end of each pull rod, a stabilizing mechanism is arranged on one side of each barrier plate, the number of the stabilizing mechanisms, go into fixed mounting on the inner wall of oil groove and have supplementary filter screen, go into and seted up the clearance groove on the inner wall of oil groove, go into fixed mounting on the barrier plate of oil groove one side and have the clearance pole, go into inside clearance pole one side fixed mounting of oil groove and have the strip brush.

Preferably, a water level window is embedded in one surface of the oil receiving tank, and scale marks are arranged on one surfaces of the oil receiving tanks on two sides of the water level window.

Preferably, the extrusion mechanism includes the extrusion groove, the extrusion groove has been seted up to electric skateboard's inside, fixed mounting has the fixed plate on the inner wall in extrusion groove, the connecting rod has been inserted in the through-hole of seting up on the fixed plate, and the quantity of connecting rod is four, the one end fixed mounting of fixed plate has the spring, and the quantity of spring is two, two the other end of spring is connected on the brush.

Preferably, four the one end fixed mounting of connecting rod has first magnet strip, fixed mounting has second magnet strip, two on the extrusion inslot wall of first magnet strip one end fixed mounting has third magnet strip, two on the oil tank inner surface of receipts of electronic slide rail one end fixed mounting has wood system separator on the oil tank inner wall of receipts of electronic slide rail one side, and the shape of wood system separator one end is the toper, the separating tank has been seted up on the electric slide of wood system separator one end, and the separating tank communicates with each other with the extrusion groove.

Preferably, the stabilizing mechanism comprises a clamping rod, the clamping rod is connected to the blocking plate, and a clamping groove is formed in the oil squeezing box on one side of the clamping rod.

Preferably, the clamping rod is provided with two rolling grooves, and the inner walls of the two rolling grooves are sleeved with rollers through rotating shafts.

Preferably, the stock stop includes the mount pad, and the quantity of mount pad is two, two the mount pad is all connected on going into the feed cylinder, two the striker plate has all been cup jointed through the pivot to the one end of mount pad, two there is the balancing weight, two all fixed mounting in one side of striker plate one end the striker plate is close to the one end fixed mounting who goes into the feed cylinder and has the block rubber.

Preferably, a first material guide plate is fixedly mounted on the inner wall of the feeding barrel, the second material guide plate is inclined, a second material guide plate is fixedly mounted on the inner surface of the feeding barrel at one end of the first material guide plate, and the second material guide plate is inclined.

Compared with the prior art, the invention has the beneficial effects that:

1. through the arrangement of the electric slide rail, the brush, the auxiliary filter screen, the barrier plate and the oil inlet groove, raw material impurities after the oil extraction cylinder finishes the first extrusion oil outlet can be blocked by the barrier plate, so that the secondary extrusion oil outlet is realized by utilizing mutual extrusion between the gradually increased raw material impurities, the oil extraction raw material can be fully utilized, the oil outlet amount of the device is increased to a certain extent, the device has more environmental protection property, and simultaneously, the cleaning effect of the brush is realized, fine raw material residues can stay on the small-aperture filter screen plate to influence the normal work of the device, the cleaning difficulty of workers is reduced, the cleaning burden of the workers is reduced, the device can continuously feed and discharge materials through the movable barrier plate, the device is more suitable for the modern production line for continuously feeding materials, the automation of the device is increased, and the structure of the device is simple, so that the device is more convenient for popularization and production.

2. Through being provided with first magnet strip, the second magnet strip, the third magnet strip, disengagement tank and wood system separator, utilize the adsorption of second magnet strip and third magnet strip to first magnet strip like this, can make the brush can be lifted after moving suitable position, avoid it in the left side of the route of returning tiny raw materials incomplete material area to aperture filter screen board, thereby staff's the clearance degree of difficulty has further been reduced, work load when staff's routine maintenance has been reduced, and utilize wood system separator to come the separation of second magnet strip and first magnet strip, can make the brush still can exert its efficiency in next motion, thereby make this device have hommization more.

3. Through being provided with the mount pad, the balancing weight, striker plate and block rubber, utilize striker plate and balancing weight to cooperate like this, make it can block external impurities such as dust at non-pan feeding time, avoid it to enter into the device inside, can not influence normal state simultaneously, thereby make this device handle better to the condition that lasts the pan feeding, let the suitability and the installation of this device obtain promoting, also block the raw materials that extracts oil when broken simultaneously, avoid its emergence to jump and fly or raise dust's phenomenon, the sanitary conditions of workshop has been promoted to a certain extent.

Drawings

FIG. 1 is a schematic sectional elevation view of the structure of the present invention;

FIG. 2 is a schematic front view of the structure of the present invention;

FIG. 3 is a schematic top view of the oil receiving tank structure of the present invention;

FIG. 4 is a schematic top sectional view of the oil pressing box according to the present invention;

FIG. 5 is a schematic side view of an auxiliary screen structure according to the present invention;

FIG. 6 is a schematic sectional front view of the extrusion mechanism of the present invention;

FIG. 7 is a schematic side sectional view of the spring structure of the present invention;

fig. 8 is a schematic structural front sectional view of a stock stop of the present invention;

FIG. 9 is an enlarged view of a portion of the structure at A in FIG. 1 according to the present invention;

FIG. 10 is a schematic sectional front view of a cleaning rod according to the present invention.

In the figure: 1. a device body; 110. a supporting seat; 111. a first support leg; 112. a second support leg; 113. an oil extraction tank; 114. placing a rack; 115. a motor; 116. a transmission rod; 117. feeding into a charging barrel; 118. a crushing cylinder; 119. a drive belt; 120. an auxiliary lever; 121. a control panel; 122. a single chip microcomputer; 123. a linkage rod; 124. a stabilizing sleeve; 125. an oil extracting barrel; 126. a stabilizer bar; 127. an oil extraction bin; 128. a large-aperture filter screen plate; 129. an oil collecting tank; 130. a liquid baffle; 131. a small-aperture filter screen plate; 132. an electric slide rail; 133. an electric skateboard; 134. a brush; 135. a pull rod; 136. a blocking plate; 137. an oil inlet groove; 138. an auxiliary filter screen; 139. a water level window; 140. scale lines; 141. cleaning the tank; 142. cleaning the rod; 143. a strip brush; 2. an extrusion mechanism; 210. extruding a groove; 211. a fixing plate; 212. a connecting rod; 213. a spring; 214. a first magnet bar; 215. a second magnet strip; 216. a third magnet strip; 217. a separation tank; 218. a wooden separator plate; 3. a stabilizing mechanism; 310. a position clamping rod; 311. a clamping groove; 312. rolling a groove; 313. a roller; 4. a stock stop mechanism; 410. a mounting seat; 411. a striker plate; 412. a balancing weight; 413. a rubber block; 414. a first material guide plate; 415. a second material guide plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, an embodiment of the present invention is shown:

an oil pressing device with a secondary pressing structure for grain and oil production comprises a device body 1, wherein a motor 115, a control panel 121, a single chip microcomputer 122, an electric sliding rail 132 and an electric sliding plate 133 which are used in the device body are all products which can be directly purchased in the market, the principle and the connection mode of the electric sliding plate 133 are the prior art which is well known by the technical personnel in the field, and therefore the description is omitted, in the device body 1, the control panel 121, the motor 115, the single chip microcomputer 122, the electric sliding rail 132 and the electric sliding plate 133 are electrically connected through a conducting wire, the device body 1 comprises a supporting seat 110, a first supporting leg 111 is fixedly installed on one side of the supporting seat 110, an auxiliary rod 120 is fixedly installed on the supporting seat 110 on one side of the first supporting leg 111, the control panel 121 is fixedly installed on the inner sides of the auxiliary rod 120 and the first supporting leg 111, an oil pressing tank 113 is fixedly installed on one end of the, a single chip microcomputer 122 is fixedly installed at one end of the auxiliary rod 120, second supporting legs 112 are fixedly installed on both sides of the oil pressing box 113, one end of the single chip microcomputer 122 is connected to the supporting seat 110, a placing frame 114 is fixedly installed on the oil pressing box 113 on one side of the single chip microcomputer 122, a motor 115 is fixedly installed at one end of the placing frame 114, a charging barrel 117 is installed in the oil pressing box 113 on one side of the placing frame 114 in an embedded manner, a driving rod 116 is sleeved at the output end of the motor 115, the driving rod 116 extends through a through hole in the charging barrel 117 and is sleeved on the auxiliary rod 120 through a bearing, a crushing barrel 118 is sleeved on the driving rod 116 in the charging barrel 117, a material blocking mechanism 4 is arranged at one end of the charging barrel 117, an oil pressing bin 127 is arranged in the oil pressing box 113, a stabilizing rod 124 is fixedly installed on the inner wall of the oil pressing bin 127, a stabilizing rod 126 is fixedly installed on the inner wall of the oil pressing bin 127 on one side of, one side of the inner wall of an oil pressing bin 127 at one side of a stabilizing sleeve 124 is sleeved with a linkage rod 123 through a bearing, one side of the linkage rod 123 extends through a through hole on the stabilizing sleeve 124, one side of the stabilizing sleeve 124 is sleeved with an oil pressing cylinder 125, one side of the oil pressing cylinder 125 is sleeved on a stabilizing rod 126 through a bearing, a transmission belt 119 is sleeved on a transmission rod 116 at one side of an oil feeding cylinder 117, the other end of the transmission belt 119 is sleeved on the linkage rod 123, an oil receiving tank 129 is fixedly installed on a supporting seat 110 at one end of the oil pressing tank 113, one side of the oil receiving tank 129 is connected on a first supporting leg 111, a liquid baffle plate 130 is fixedly installed on the inner surface of the oil receiving tank 129, a small-aperture filter screen plate 131 is fixedly installed at one side of the liquid baffle plate 130, the other side of the small-aperture filter screen plate 131 is connected on the inner surface of the oil receiving tank 129, electric slide rails 132 are fixedly installed on, the electric sliding plates 133 are slidably mounted on the inner sides of the two electric sliding rails 132, the squeezing mechanisms 2 are arranged inside the electric sliding plates 133, one ends of the electric sliding plates 133 are provided with brushes 134, one sides of the electric sliding plates 133 are fixedly provided with pull rods 135, the number of the pull rods 135 is two, one ends of the two pull rods 135 are fixedly provided with blocking plates 136, one sides of the blocking plates 136 are provided with stabilizing mechanisms 3, the number of the stabilizing mechanisms 3 is three, an oil inlet groove 137 is formed in the inner wall of the oil squeezing bin 127 on one side of the stabilizing rod 126, an auxiliary filter screen 138 is fixedly mounted on the inner wall of the oil inlet groove 137, a cleaning groove 141 is formed in the inner wall of the oil inlet groove 137, a cleaning rod 142 is fixedly mounted on the blocking plate 136 on one side of the oil inlet groove 137, and a strip-shaped brush 143 is fixedly mounted on one side of the cleaning rod 142 inside the oil inlet groove 137, so that raw material, thereby utilize mutual extrusion realization quadratic extrusion to produce oil between the raw materials impurity that increases gradually, make the raw materials that extracts oil can obtain make full use of, increased the oil yield of this device to a certain extent, let this device have the feature of environmental protection more, and the clearance effect of brush 134 simultaneously, can tiny raw materials residue stop influence its normal work on little aperture filter screen board 131, staff's the clearance degree of difficulty has been reduced, staff's clean burden has been reduced, and this device is through movable barrier plate 136, can last pan feeding and the ejection of compact, accord with the modern production line that lasts the pan feeding more, let the automation of this device increase, and this mechanism simple structure, make this device be convenient for more and promote production.

Furthermore, a water level window 139 is embedded in one surface of the oil receiving tank 129, and scale marks 140 are arranged on one surface of the oil receiving tank 129 on two sides of the water level window 139, so that the staff can observe the oil storage amount in the oil receiving tank 129 conveniently.

Further, the extrusion mechanism 2 includes an extrusion groove 210, the extrusion groove 210 has been seted up to electric skateboard 133's inside, fixed mounting has a fixed plate 211 on the inner wall of extrusion groove 210, connecting rod 212 has been inserted in the through-hole of seting up on the fixed plate 211, and the quantity of connecting rod 212 is four, the one end fixed mounting of fixed plate 211 has spring 213, and the quantity of spring 213 is two, the other end of two springs 213 is connected on brush 134, can utilize the elasticity of spring 213 to make brush 134 hug closely on small aperture filter plate 131 like this.

Furthermore, one end of each of the four connecting rods 212 is fixedly provided with a first magnetic stone strip 214, the inner wall of the extrusion groove 210 at one end of the first magnetic stone strip 214 is fixedly provided with a second magnetic stone strip 215, the inner surface of the oil collection tank 129 at one end of each of the two electric sliding rails 132 is fixedly provided with a third magnetic stone strip 216, the inner wall of the oil collection tank 129 at one side of each of the two electric sliding rails 132 is fixedly provided with a wooden separating plate 218, one end of the wooden separating plate 218 is conical, the electric sliding plate 133 at one end of the wooden separating plate 218 is provided with a separating groove 217, and the separating groove 217 is communicated with the extrusion groove 210, so that the brush 134 can be lifted after moving to a proper position by utilizing the adsorption effect of the second magnetic stone strips 215 and the third magnetic stone strips 216 on the first magnetic stone strips 214, and fine raw materials are prevented from remaining to the left side of the small-aperture filter screen plate 131 in the returning process, thereby further reducing the cleaning difficulty of workers, the workload of workers in daily maintenance is reduced, and the wooden separating plate 218 is used for separating the second magnet strip 215 from the first magnet strip 214, so that the brush 134 can still exert the effect in the next movement, and the device is more humanized.

Further, stabilizing mean 3 includes screens pole 310, and screens pole 310 is connected on barrier 136, has seted up screens groove 311 on the case 113 that extracts oil of screens pole 310 one side, utilizes spacing between screens pole 310 and the screens groove 311 like this for barrier 136 is being difficult to the emergence skew when receiving the extrusion more.

Furthermore, the position-locking rod 310 is provided with two rolling grooves 312, and the inner walls of the two rolling grooves 312 are sleeved with the roller 313 through the rotating shaft, so that the friction force generated when the position-locking rod 310 is inserted into the position-locking groove 311 can be reduced.

Further, the material blocking mechanism 4 comprises two mounting seats 410, two mounting seats 410 are arranged, two mounting seats 410 are connected to the material inlet cylinder 117, one ends of the two mounting seats 410 are sleeved with material blocking plates 411 through rotating shafts, one sides of one ends of the two material blocking plates 411 are fixedly provided with balancing weights 412, one ends of the two material blocking plates 411 close to the material inlet cylinder 117 are fixedly provided with rubber blocks 413, thus, the baffle 411 and the counterweight block 412 are matched to block external impurities such as dust and the like in the non-feeding time, so as to prevent the external impurities from entering the device, and meanwhile, the normal state is not influenced, thereby leading the device to better process the condition of continuous feeding, improving the applicability and the installation of the device, also block the raw materials that extracts oil when broken simultaneously, avoid its phenomenon that takes place to jump and fly or raise dust, promoted the sanitary conditions of workshop to a certain extent.

Further, a first material guide plate 414 is fixedly mounted on the inner wall of the feeding barrel 117, the second material guide plate 415 is inclined, the second material guide plate 415 is fixedly mounted on the inner surface of the feeding barrel 117 at one end of the first material guide plate 414, and the second material guide plate 415 is inclined, so that the blocking effect of the first material guide plate 414 and the second material guide plate 415 can be utilized to prevent the material from being thrown and flown by the crushing barrel 118 when the material blocking plate 411 is inclined.

The working principle is as follows: when the device is used by a worker, the device is firstly moved to a proper position, then the device is externally connected with a power supply, then the motor 115, the single chip microcomputer 122, the electric sliding rail 132 and the electric sliding plate 133 are started through the control panel 121, and the single chip microcomputer 122 is programmed to control the electric sliding rail 132 to drive the brush 134 and the electric sliding plate 133 to reciprocate once after a period of time, after the motor 115 is started, the driving rod 116 is driven to rotate, then the rotation of the driving rod 116 can drive the crushing barrel 118 to rotate, meanwhile, the rotation of the driving rod 116 can drive the driving belt 119 to move, the movement of the driving belt 119 can drive the linkage rod 123 to rotate, and finally, the rotation of the driving rod 123 can drive the oil squeezing barrel 125 to rotate.

After the preparation is completed, the raw material is added into the material feeding barrel 117, after the raw material leaks from an external conveyor belt, the raw material stays on the material baffle 411, then when the raw material reaches a certain weight, the stress on one side of the material baffle 411 is larger than the pressure applied to the material baffle 411 by the counterweight 412 on the other side, so that the material baffle 411 is inclined and the raw material enters the material feeding barrel 117 along the inclined material baffle 411, then after the raw material enters the material feeding barrel 117, the counterweight 412 enables the material baffle 411 to rotate reversely and prevents the excessive rotation due to the limiting effect of the rubber block 413, so that the material baffle 411 returns to the original position to block the material feeding barrel 117 again, the raw material moves along the first material guide plate 414 and the second material guide plate 415 when entering the material feeding barrel 117 and then falls into the area of the crushing barrel 118, and the crushing barrel 118 crushes the falling oil pressing raw material, then the raw material after the crushing treatment enters the oil pressing bin 127, at this time, the continuous rotation of the oil pressing cylinder 125 drives the raw material to move continuously and generate a certain pressing effect, the pressed oil and fine impurities pass through the large-aperture filter screen plate 128 and fall into the oil receiving tank 129, finally the fine impurities stay on the small-aperture filter screen plate 131, the oil stays inside the oil receiving tank 129 below the small-aperture filter screen plate 131, then the raw material residue gradually enters the right side position of the stabilizer bar 126 along with the rotation of the oil pressing cylinder 125, and meanwhile, because the barrier plate 136 blocks the outlet, the residue stays at this position, the residue can be pushed at this position and continuously pressed with each other, so that the residual oil inside the residue overflows, and then the overflowed oil can pass through the auxiliary filter screen 138 and enter the oil groove 137, and finally flows along the inner wall of the oil inlet tank 137 to the large-aperture filter plate 128 and passes through the large-aperture filter plate 128 into the interior of the oil collecting tank 129.

After the device runs for a period of time, the single chip microcomputer 122 transmits an electric signal to the electric slide rail 132, so that the single chip microcomputer drives the electric slide plate 133 to move, meanwhile, the electric slide plate 133 drives the brush 134 to move, the brush 134 is tightly attached to the surface of the small-aperture filter screen plate 131 due to the extrusion of the spring 213, so that the brush 134 can drive fine residues attached to the small-aperture filter screen plate 131 to move together when moving, meanwhile, the electric slide plate 133 drives the pull rod 135 to move when moving, so that the blocking plate 136 is driven to move, so that the blocking plate 136 is separated from the limit of the discharge hole of the oil extraction box 113, the previous residues are pushed out from the oil extraction bin 127 along with the continuous extrusion of the raw material residues, then, the fine residues are taken over the liquid baffle 130 due to the movement of the brush 134, and meanwhile, after the electric slide plate 133 moves to the rightmost side, the third magnet strips 216 can adsorb the second magnet strips 215, so that the magnetism of the second magnet strip 215 is increased, and the first magnet strip 214 at the bottom end is attracted, so that the spring 213 contracts and the height of the brush 134 changes, then the electric sliding plate 133 starts to move backwards, when the electric sliding plate 133 returns to the leftmost initial position, the wooden separating plate 218 is inserted into the separating groove 217, so as to be inserted between the second magnet strip 215 and the first magnet strip 214, so that the two are separated, and the spring 213 releases the stored elastic potential energy, and the brush 134 is tightly attached to the small-aperture filter screen plate 131 again, and after the electric sliding plate 133 is reset, the blocking plate 136 blocks the oil pressing bin 127 again, so that the subsequent raw material residues are extruded again to obtain oil.

When the oil is collected to a certain degree, the oil can be pumped out through the oil outlet pipe on the back of the oil collecting tank 129.

Meanwhile, the cleaning rod 142 and the strip-shaped brush 143 can be continuously driven to move in the movement process of the blocking plate 136, when the blocking plate 136 moves towards the oil inlet 137, the strip-shaped brush 143 can be driven to gradually enter the oil inlet 137, meanwhile, bristles on the strip-shaped brush 143 have certain elasticity and can smoothly penetrate through the cleaning groove 141, and meanwhile, the auxiliary filter screen 138 can be simply dredged by the strip-shaped brush 143 when the strip-shaped brush 143 moves.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.