CN213082455U - Combined full-automatic hydraulic oil press production line - Google Patents

Abstract

The utility model discloses a make up full-automatic hydraulic oil press production line belongs to the technical field that extracts oil, including vertical screw conveyer, automatic dosing hopper, horizontal screw conveyer, extrusion cake all-in-one in advance, feed cylinder and connect food tray conveyer, well accuse platform, feed cylinder and connect food tray to connect integrative device, hydraulic oil press, automatic feeding and discharging bucket and connect dish device and hydraulic pressure station, the utility model discloses a make up full-automatic hydraulic oil press production line has added time control on pressure control's basis, lets you make things convenient for more when using, light. Moreover, the device integrates the total working time, pressure, cycle time, manual operation, automatic operation, weighing and control into a whole, adopts modular assembly, and is added with operation instructions of each section, so that the operation is clear at a glance, and the use is convenient; the method has the characteristics of small occupied area, simple use and operation, accurate quantification, capability of achieving the optimal oil outlet effect and great labor saving.

Description

Combined full-automatic hydraulic oil press production line

Technical Field

The utility model relates to an oil technical field specifically relates to a make up full-automatic hydraulic oil press production line, especially a make up full-automatic hydraulic oil press, automatic quantitative weighing transport all-in-one, pre-compaction play cake all-in-one, concentrate the collection oil, feed cylinder and connect food tray conveyer, automatic feed cylinder and the production line that connects the integrative device to assemble of oil pan device, feed cylinder and connect the food tray for various oil crops realize full-automatic hydraulic oil press production line.

Background

Nowadays, the living standard is continuously improved, people pursue healthy foods, how to improve the quality of life of people without the problem of satiety, and edible oil is an essential substance for life of people, and the quality of edible oil directly influences the physical health of people. The pressed oil is used for separating grease from oil seeds or nuts, and in the prior art, mechanical pressing is usually adopted for separating fluid oil in the seeds from solid oil cakes so as to obtain the grease.

The whole process of oil extraction is completed under manual intervention, the material movement amount is large, the labor intensity of operators is high, more workers are used, the material weight control precision is low, the product quality is unsatisfactory, the oil yield is low, time control is not provided, and various oil crops are squeezed at high temperature and the nutritional ingredients of some high-end oil crops are damaged.

Therefore, it is necessary to provide a combined full-automatic hydraulic oil press production line, aiming at solving the above problems.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model discloses an aim at provide a simple structure, can realize automatic control, alleviate intensity of labour, improve work efficiency, improve the utility model full-automatic hydraulic oil press production line of oil yield, especially: a production line assembled by a combined full-automatic hydraulic oil press production line, an automatic quantitative weighing and conveying all-in-one machine, a prepressing and cake discharging all-in-one machine, a centralized collecting oil, a charging barrel, an oil receiving disc conveyor, an automatic feeding and discharging barrel, an oil receiving disc device, a charging barrel, an oil receiving disc connecting integrated device and a central control platform. The full-automatic hydraulic oil press production line is used for realizing the full-automatic hydraulic oil press production line for various oil crops, and solves the problems in the background technology.

In order to achieve the above object, the utility model provides a following technical scheme:

a combined full-automatic hydraulic oil press production line comprises a vertical screw conveyor, an automatic quantitative hopper, a horizontal screw conveyor, a pre-pressing cake all-in-one machine, a charging barrel and oil receiving disc conveyor, a central control platform, a charging barrel and oil receiving disc connection integrated device, a hydraulic oil press, an automatic charging and discharging barrel, an oil receiving disc device and a hydraulic station, wherein the automatic quantitative hopper is arranged at the top of the vertical screw conveyor, the horizontal screw conveyor is connected below the automatic quantitative hopper, the pre-pressing cake all-in-one machine is arranged on the side surface of the horizontal screw conveyor, the pre-pressing device is arranged above the pre-pressing cake discharging all-in-one machine, a cake discharging device is arranged on the side surface of the pre-pressing cake discharging all-in-one machine, and; the hydraulic oil press is arranged above the charging barrel and the oil receiving disc connecting integrated device, and an oil outlet groove is formed in the bottom side of the charging barrel and the bottom side of the oil receiving disc connecting integrated device.

As a further scheme of the utility model, perpendicular screw conveyer comprises screw conveyer body, business turn over material device and drive arrangement triplex, and the screw conveyer body comprises cell body and the screw axis that sets up in the cell body, and helical blade on the cell body offsets with the cell body wall, and drive arrangement is connected to screw axis one end.

As a further scheme of the utility model, the feeding and discharging device comprises a feeding hopper and a discharging hopper, the feeding hopper is positioned at the bottom of the groove body, and the discharging hopper is positioned at the top of the groove body; the driving device and the discharge opening of the discharge hopper are arranged at the same end of the vertical screw conveyor, and the automatic quantitative hopper is positioned at the discharge opening of the vertical screw conveyor.

As a further scheme of the utility model, the automatic quantitative hopper is composed of a mechanical part and an electrical part, the mechanical part comprises a mechanical scale body, a speed-regulating motor reducer, a belt, weights, a discharging cover and a hopper, and the electrical part comprises an automatic quantitative hopper control box and elements for field control; the automatic quantitative hopper control box is internally provided with a control instrument, a low-voltage electrical element and a speed regulation controller, the field element comprises a weighing sensor, a speed sensor, a belt limit switch and a field control box, and the automatic quantitative hopper control box is arranged on a quantitative control device bracket.

As a further aspect of the present invention, the horizontal screw conveyor has the same structure that the included angle between the screw axis and the horizontal plane is smaller than 15 degrees, and the horizontal screw conveyor is horizontally disposed.

As a further proposal of the utility model, the feed hopper of the horizontal screw conveyer is linked together with the output end of the automatic quantitative hopper, and the discharge hopper of the horizontal screw conveyer is connected with the pre-pressed cake all-in-one machine.

As a further scheme of the utility model, the pre-compaction goes out cake all-in-one and includes base and hydro-cylinder, is fixed with a hydro-cylinder on the base, is equipped with mobilizable formula hydro-cylinder on the pre-compaction device at pre-compaction play cake all-in-one top.

As the utility model discloses further scheme, the feed cylinder with connect the food tray conveyer setting in pre-compaction play cake all-in-one side, the feed cylinder with connect the food tray conveyer to pass through shaft coupling, reduction gear drive fluted disc and drive chain and connect the feed cylinder and connect food tray conveyer tray.

As the utility model discloses further scheme, the feed cylinder with connect the food tray to connect integrative device and include the staving, the bottom face welding of staving has the food tray that connects, the staving with connect the food tray and be connected integrative device, movable barrel head is installed to the inboard bottom of staving, and the barrel head is located the higher authority that connects the food tray, the lower surface of the barrel head of staving is connected with hydraulic cylinder, and the feed cylinder with connect the food tray to connect integrative device bottom and install hydraulic oil press horizontal adjusting device.

As the utility model discloses further scheme, hydraulic oil press is including the hydraulic oil press that sets gradually No. one, hydraulic oil press No. two, hydraulic oil press No. three, hydraulic oil press No. four and hydraulic oil press No. five, and automatic feeding and discharging bucket and connect food tray device side to be equipped with automatic feeding and discharging barrel and connect food tray device gag lever post.

To sum up, compared with the prior art, the embodiment of the utility model has the following beneficial effects:

the utility model discloses a make up full-automatic hydraulic oil press production line has added time control on pressure control's basis, lets you make things convenient for more when using, light. The automatic oil press is characterized in that the automatic oil press comprises a feeding cylinder, an oil receiving disc, an automatic feeding cylinder, an oil receiving disc, an oil collecting disc, a feeding cylinder, an oil collecting disc and a pressing cylinder, wherein the feeding cylinder, the oil collecting disc and the oil collecting disc are arranged on the oil collecting disc, the oil collecting disc and the oil collecting disc are arranged on the; the method has the characteristics of small occupied area, simple use and operation, accurate quantification, capability of achieving the optimal oil outlet effect and great labor saving.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a front view of an embodiment of the invention.

Reference numerals: 1-vertical screw conveyer, 2-automatic quantitative hopper, 3-automatic quantitative hopper control box, 4-quantitative control device bracket, 5-horizontal screw conveyer, 6-pre-pressing cake all-in-one machine, 7-pre-pressing device, 8-cake discharging device, 9-pre-pressing cake vertical screw conveyer operating button, 10-material barrel and oil receiving disc conveyer, 11-material barrel and oil receiving disc conveyer tray, 12-anti-slip pedal, 13-center console pedal, 14-material barrel and oil receiving disc conveyer chain, 15-material barrel and oil receiving disc conveyer horizontal adjusting device, 16-material barrel and oil receiving disc conveyer limit switch, 17-center console, 18-material barrel and oil receiving disc connecting integrated device, 19-hydraulic oil press horizontal adjusting device, 20-oil outlet groove, 21-hydraulic oil press, 22-automatic feeding and discharging barrel and oil receiving disc device, 23-automatic feeding and discharging barrel and oil receiving disc device limiting rod, 24-hydraulic station and 25-hydraulic pipeline.

Detailed Description

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

The technical solution of the present invention will be further explained with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-2, a combined full-automatic hydraulic oil press production line comprises a vertical screw conveyor 1, an automatic quantitative hopper 2, a horizontal screw conveyor 5, a pre-pressing and cake discharging integrated machine 6, a charging barrel and oil receiving disc conveyor 10, a central control table 17, a charging barrel and oil receiving disc connection integrated device 18, a hydraulic oil press 21, an automatic charging and discharging barrel and oil receiving disc device 22 and a hydraulic station 24.

The vertical screw conveyor 1 comprises a screw conveyor body, a feeding and discharging device and a driving device, wherein the screw conveyor body comprises a groove body and a screw shaft arranged in the groove body, a screw blade on the groove body is abutted against the wall of the groove body, one end of the screw shaft is connected with the driving device, preferably, the driving device is a servo motor, the feeding and discharging device comprises a feeding hopper and a discharging hopper, the feeding hopper is positioned at the bottom of the groove body, and the discharging hopper is positioned at the top of the groove body; when the vertical screw conveyor 1 conveys materials, the materials are poured into the feed hopper, and when the driving device drives the screw shaft to rotate, the materials can only move upwards along the groove body of the vertical screw conveyor 1 under the pushing of the helical blades due to the gravity of the materials and the friction force generated between the gravity of the materials and the wall of the groove body, so that the vertical conveying is realized, and the materials are output from the discharge hopper at the top.

As a preferred embodiment of the present invention, in order to make the screw shaft in a favorable tension state, the driving device and the discharge opening of the discharge hopper are installed at the same end of the vertical screw conveyor 1, and the feed inlet of the feed hopper is placed near the tail of the other end of the vertical screw conveyor 1, so that the material can enter the tank body conveniently.

The automatic quantitative hopper 2 is positioned at the discharge opening of the vertical screw conveyor 1, and the automatic quantitative hopper 2 consists of a mechanical part and an electrical part. The mechanical part comprises a mechanical scale body, a speed-regulating motor reducer, a belt, weights, a discharging cover and a hopper. Preferably, the mechanical scale body is installed in the hopper bottom, installs the cover of unloading on the hopper, be equipped with the weight on the mechanical scale body, the hopper bottom is equipped with the belt, and the band pulley of belt is connected the buncher speed reducer, reaches the settlement weight in the hopper after, the cover of unloading is opened, and the belt is carried the material in the hopper.

The electrical part comprises an automatic dosing hopper control box 3 and elements for on-site control. The automatic quantitative hopper control box 3 is internally provided with a control instrument, a low-voltage electric element and a speed regulation controller. The field element comprises a weighing sensor, a speed sensor, a belt limit switch and a field control box. Wherein, the automatic quantitative hopper control box 3 is arranged on the quantitative control device bracket 4.

When the quantitative mechanical scale body enters an automatic operation state, the control system opens the feeding door to start feeding, and the feeding device adopts a fast and slow two-stage feeding mode; when the weight of the material reaches a set value of fast feeding, stopping fast feeding and keeping slow feeding; when the weight of the material reaches a final set value, closing the feeding door to finish the weighing process; the automatic operation is repeated in such a cycle.

The horizontal screw conveyor 5 is a screw conveyor with a screw shaft and a horizontal plane, and the included angle between the screw shaft and the horizontal plane is less than 15 degrees. The screw conveyer is generally composed of a screw conveyer body, a feeding and discharging device and a driving device. When the screw shaft of the screw conveyor body rotates, the material can only move forwards along one end of the conveyor to the other end under the pushing of the blades of the screw conveyor body due to the gravity of the material and the friction force generated between the material and the wall of the groove body, and the situation is as if the nut which cannot rotate does translational motion along the rotating screw. The material is moved in the middle by the thrust of the material advancing from the back. Therefore, the material is conveyed in the conveyor in a sliding motion completely. In order to place the screw shafts in a favorable tension, the drive and discharge openings are generally placed at the same end of the conveyor, with the feed opening being located as close as possible to the end of the other end.

As an embodiment of the present invention, the horizontal screw conveyor 5 has the same structure as the vertical screw conveyor 1, and the difference is that the horizontal screw conveyor 5 is wholly horizontal, wherein the feed hopper of the horizontal screw conveyor 5 is linked with the output end of the automatic quantitative hopper 2.

Horizontal screw conveyer 5's play hopper is connected and is pressed cake all-in-one 6 in advance, the cake all-in-one 6 in advance includes base and hydro-cylinder, is fixed with a hydro-cylinder on the base, and 6 tops of pre-compaction play cake all-in-one are equipped with pre-compaction device 7, are equipped with mobilizable formula hydro-cylinder on pre-compaction device 7, and this pre-compaction goes out cake all-in-one 6 and pre-compaction device 7 and closes the pre-compaction, go out the cake and close as an organic wholely, and the pre-compaction of oil crop is realized to the underdepression of mobilizable formula hydro-cylinder on the pre-compaction device. The cake discharging device has the advantages that the cake effect is realized through the upward ejection of the oil cylinder on the base, and the cake discharging device can discharge round cakes singly or at one time, and has the characteristics of high efficiency, energy conservation, time and labor conservation, easiness in operation and the like.

The charging barrel and oil receiving disc conveyer 10 is arranged on one side of the pre-pressing and cake discharging integrated machine 6, and the charging barrel and oil receiving disc conveyer 10 is a conveying machine for conveying a charging barrel and an oil receiving disc on a certain line, and is also called a conveyer. The conveyor can carry out horizontal conveying, and the conveying line is generally fixed. The conveyer has large conveying capacity and can bear larger weight.

The feed cylinder with connect food tray conveyer 10 to pass through shaft coupling, reduction gear drive fluted disc, drive chain drive feed cylinder and connect food tray conveyer tray 11 reciprocating motion, during the working stroke through central console 17 cooperation feed cylinder with connect food tray conveyer limit switch 16 to realize opening of feed cylinder and connect food tray conveyer tray 11 and stop and the location.

The feed cylinder with connect food tray conveyer 10 upper berth to be equipped with the feed cylinder and connect food tray conveyer chain 14, the feed cylinder with connect food tray conveyer chain 14 to be equipped with the feed cylinder and connect food tray conveyer tray 11, the feed cylinder with connect food tray conveyer 10 bottom to be equipped with the feed cylinder and connect food tray conveyer level (l) adjusting device 15, the feed cylinder with connect food tray conveyer 10 side to be equipped with the feed cylinder and connect food tray conveyer limit switch 16, the feed cylinder with connect to be equipped with skid resistant pedal 12 on the food tray conveyer 10, the feed cylinder with connect to be equipped with on the food tray conveyer 10 and go out cake device 8.

Well accuse platform 17 front side is equipped with well accuse platform footboard 13, and well accuse platform 17's advantage includes: the number and position parameters of stations of different types of products can be set, and the operation process can be monitored on line; the equipment is flexible and convenient to operate, and can realize starting and pausing, automatic and manual mode switching, oil cylinder pressing time adjustment and the like; controlling the automatic inlet and outlet of the charging barrel and the oil receiving disc, the automatic loading of materials and the automatic operation of the oil press, and completing the operation by one person independently; the positioning precision is high, automatic alarm, and the whole journey is visual.

The charging barrel and oil receiving disc integrated device 18 comprises a barrel body, an oil receiving disc is welded on the bottom end face of the barrel body, the barrel body and the oil receiving disc are integrated into a connecting device, a movable barrel bottom is further mounted at the bottom of the inner side of the barrel body and is also called a cake pushing plate, the cake pushing plate is located on the oil receiving disc, a hydraulic oil cylinder is connected to the lower surface of the barrel bottom of the barrel body, and the lower surface of the barrel bottom of the barrel body slides upwards along the inner wall face of the barrel body under the pushing action of the hydraulic oil cylinder. Has the characteristics of large volume, more material loading and convenient material feeding.

As the utility model discloses a preferred embodiment, hydraulic oil press horizontal adjusting device 19 is installed to the feed cylinder and the integrative device 18 bottom of connecing the food tray to connect, the feed cylinder is equipped with out oil groove 20 with connect the integrative device 18 bottom side of food tray to connect.

Hydraulic oil press 21 adopts the tradition to squeeze the principle and combines together with modern science and technology, compares with ordinary oil press and has efficient, environmental protection and energy saving, product added value height, lossless, noiselessness, and the physics is squeezed and need not the heating, does not add any industrial chemicals, does not need the edible vegetable oil, easy operation, no vulnerable part, long service life.

Hydraulic oil press 21 is including the hydraulic oil press that sets gradually No. one, No. two hydraulic oil presses, No. three hydraulic oil presses, No. four hydraulic oil presses and No. five hydraulic oil presses, and is preferred, and No. one hydraulic oil press is located the feed cylinder and connects integrative 18 one sides of food tray connection, hydraulic oil press 21 adopts oily transmission pressure, makes the oil pressurized under static state. The hydraulic oil press 21 has the advantages of high pressure, high primary oil yield, few moving parts and convenience in maintenance.

The automatic feed and discharge bucket and drip pan assembly 22 is an apparatus capable of automatically completing the feeding of workpieces to a processing or assembly machine in an automated processing line, referred to as an automated apparatus. The automatic feeding and discharging barrel and oil receiving disc device 22 is a new technology in the oil press industry, the technology can not only greatly improve the productivity, reduce the labor intensity of workers and guarantee the production safety, but also play a positive role in improving the product quality, reducing the cost and promoting the rationalization of the industrial structure.

After the automatic feeding and discharging barrel and the oil receiving disc device 22 are arranged, the oil press is matched with the center console 17 to automatically push out the charging barrel and the oil receiving disc after finishing a processing cycle, manual pushing and pulling are not needed in the whole process, and the labor intensity of workers is really reduced.

And the side surfaces of the automatic feeding and discharging barrel and the oil receiving disc device 22 are provided with an automatic feeding and discharging barrel and an oil receiving disc device limiting rod 23.

In one embodiment of the present invention, the electric oil pump is used to form a circulating oil circuit system, and a plurality of hydraulic oil presses 21 are operated simultaneously, the cake is separated from the cake by a thin cushion plate, the driving piston is pressed down to generate pressure, and the cake is pressed to produce oil. After the squeezing is finished, the oil pump stops pressurizing, the piston automatically rises, and a signal is transmitted to the center console 17 to alarm to indicate that the squeezing is finished. Discharging the residue cake through the pre-pressing cake integrated machine 6, reloading the material cake, and repeatedly and intermittently pressing oil.

The hydraulic station 24 is a hydraulic device including a control valve and a hydraulic source device including a hydraulic pump, a driving motor, a tank, a directional valve, a throttle valve, a relief valve, and the like. The oil supply is carried out according to the flow direction, pressure and auxiliary flow required by the driving device, the hydraulic system is suitable for various machines with the driving device separated from a hydraulic station, and the formed hydraulic system can realize various specified actions by connecting the hydraulic station with a hydraulic pipeline 25 for an oil cylinder.

The hydraulic station 24 is a hydraulic station shared by a plurality of machines, and has the characteristics of small occupied space, cost saving, simple structure, large output force, stable and reliable performance, convenience in use and maintenance and the like.

During operation, an operator moves to the anti-skid pedal 12 in front of the pre-pressing and cake discharging integrated machine 6, and manually pushes the pre-pressing device 7 away from the position right above the charging barrel and oil receiving disc connection integrated device 18, so that space is provided for the horizontal screw conveyor 5 to convey raw materials. At the moment, a cake discharging device is started by using an operation button 9 of a vertical screw conveyer for prepressing cakes, the cake discharging device is started by 8, a cake ejecting plate in a charging barrel is lifted to a position which is about 10 centimeters away from the top end of the charging barrel and stopped, then the vertical screw conveyer 1 is started to lift raw materials into an automatic quantitative hopper 2, the automatic quantitative hopper 2 measures the weight of the raw materials entering the automatic quantitative hopper 2 through a weighing sensor, after the set weight is reached, a valve at the lower end of the weighing hopper is opened, the raw materials fall into a horizontal screw conveyer 5, at the moment, the horizontal screw conveyer 5 is started to convey the materials into the charging barrel of a pre-cake extruding all-in-one machine 6, at the moment, an operator puts a prepared material layering partition plate in advance, then pulls the prepressing device 7 to be right above the charging barrel, then the operation button 9 of the vertical screw conveyer for prepressing cakes is started to control the prepr, after the pre-pressing device is completed, the pre-pressing device 7 is manually pushed away from the position right above the material cylinder and oil receiving disc connection integrated device 18 to provide space for the horizontal spiral conveyor 5 to convey raw materials, and therefore pre-pressing work of the first cake in the material cylinder is completed. Then an operator starts an operation button 9 of the vertical screw conveyer for pre-pressing cakes to control the cake discharging device 8 to drop the cake ejecting plate in the charging barrel by the height of about 10 cm, advance work is done for pre-pressing for next charging, and then the operator finishes charging work of 12 cakes according to the steps.

The utility model discloses a theory of operation is:

an operator gets on a central console pedal 13, the central console 17 is used to start the charging barrel and oil receiving pan conveyor 10 to enable a chain 14 of the charging barrel and oil receiving pan conveyor to rotate, a tray 11 of the charging barrel and oil receiving pan conveyor is conveyed to the position right in front of the No. I hydraulic oil press, the charging barrel and oil receiving pan conveyor tray 11 is in contact with a limit switch 16 of the charging barrel and oil receiving pan conveyor, and the charging barrel and oil receiving pan conveyor tray 11 is just stopped at the position right in front of the No. I hydraulic oil press; the operator again uses the console 17 to start the automatic feed and discharge bucket and oil pan connecting device 22, pushes the feed cylinder and oil pan connecting integrated device 18 onto the feed cylinder and oil pan conveyor tray 11, then the central console 17 is used to start the automatic material inlet and outlet barrel and the oil receiving disc device 22 of the pre-pressing cake all-in-one machine 6, after the start is finished, when the material cylinder and oil receiving disc conveyor 10 is started by using the console 17 again, the chain 14 of the material cylinder and oil receiving disc conveyor starts to rotate, the material cylinder and oil receiving disc conveyor tray 11 is conveyed to the position right in front of the pre-pressing cake-discharging integrated machine 6, the material cylinder and oil receiving disc conveyor tray 11 is contacted with the limit switch 16 of the material cylinder and oil receiving disc conveyor, the material cylinder conveying tray 11 is just stopped right in front of the pre-pressing cake-discharging integrated machine 6, at this time, the central console 17 is used for starting the automatic material inlet and outlet barrel and oil receiving disc device 22 of the pre-pressing cake outlet all-in-one machine 6, and the material barrel and oil receiving disc connection all-in-one machine 18 is pulled in and positioned on the pre-pressing cake outlet all-in-one machine 6.

Then use console 17 start-up feed cylinder and connect food tray conveyer 10 again, at this moment the feed cylinder with connect food tray conveyer chain 14 to rotate, with feed cylinder and connect food tray conveyer tray 11 to the No. 6 hydraulic oil press dead ahead, feed cylinder and connect food tray conveyer tray 11 and feed cylinder and connect food tray conveyer limit switch 16 to take place the contact, feed cylinder conveying tray 11 stops just in No. five hydraulic oil press dead ahead.

An operator steps to the anti-skid pedal 12 in front of the pre-pressing and cake discharging integrated machine 6, manually pushes the pre-pressing device 7 away from the charging barrel and the oil receiving disc to be connected to a position right above the integrated device 18, and space is provided for the horizontal screw conveyor 5 to convey raw materials. At the moment, a cake discharging device 8 is started by using an operation button 9 of a vertical screw conveyer for pre-pressing cakes, a cake ejecting plate in a charging barrel is lifted to a position which is about 10 centimeters away from the top end of the charging barrel and is stopped, then the vertical screw conveyer 1 is started to lift raw materials into an automatic quantitative hopper 2, the automatic quantitative hopper 2 measures the weight of the raw materials entering the automatic quantitative hopper 2 through a weighing sensor, after the set weight is reached, a valve at the lower end of the weighing hopper is opened, the raw materials fall into a horizontal screw conveyer 5, at the moment, the horizontal screw conveyer 5 is started to convey the materials into the charging barrel of an integrated machine for pre-pressing cakes 6, at the moment, an operator puts a prepared material layering partition plate in advance, then pulls the pre-pressing device 7 to be right above the charging barrel, then the operation button 9 of the vertical screw conveyer for pre-pressing cakes is started to control the pre-pressing device 7, and, after the pre-pressing device is completed, the pre-pressing device 7 is manually pushed away from the position right above the material cylinder and oil receiving disc connection integrated device 18 to provide space for the horizontal spiral conveyor 5 to convey raw materials, and therefore pre-pressing work of the first cake in the material cylinder is completed. Then an operator starts an operation button 9 of the vertical screw conveyer for pre-pressing cakes to control the cake discharging device 8 to drop the cake ejecting plate in the charging barrel by the height of about 10 cm, advance work is done for pre-pressing for next charging, and then the operator finishes charging work of 12 cakes according to the steps.

After the charging operation is finished, an operator moves to a central console pedal 13, the central console 17 is used to start the charging barrel and oil receiving pan conveyor 10, at the moment, a charging barrel and oil receiving pan conveyor chain 14 rotates to convey the charging barrel and oil receiving pan conveyor tray 11 to the position right in front of the pre-pressing cake discharging integrated machine 6, the charging barrel and oil receiving pan conveyor tray 11 is in contact with a charging barrel and oil receiving pan conveyor limit switch 16, the charging barrel and oil receiving pan conveyor tray 11 just stops right in front of the pre-pressing cake discharging integrated machine 6, the central console 17 is used to start the automatic charging barrel and oil receiving pan device 22 of the pre-pressing cake discharging integrated machine 6, the charging barrel and oil receiving pan connecting integrated device 18 is pushed to the charging barrel and oil receiving pan conveyor tray 11, the central console 17 is used to start the charging barrel and oil receiving pan conveyor 10, at the moment, the charging barrel and oil receiving pan conveyor chain 14 rotates to convey the charging barrel and oil receiving pan conveyor tray 11 to the position right in front of No., the material cylinder and oil receiving disc conveyor tray 11 is in contact with a material cylinder and oil receiving disc conveyor limit switch 16, the material cylinder and oil receiving disc conveyor tray 11 is just stopped right in front of the No. I hydraulic oil press, an operator uses the console 17 again to start the automatic material inlet and outlet barrel and oil receiving disc device 22 of the No. I hydraulic oil press so that the material cylinder and oil receiving disc connection integrated device 18 enters and is positioned in the No. I hydraulic oil press, then the operator uses the console 17 to start the No. I hydraulic oil press, so that the No. I hydraulic oil press starts automatic pressing, oil generated by raw material pressing flows into the oil groove 20, and pressed crude oil is collected in one direction to be temporarily stored; the pressing time is set in the central control console 17 by an operator, the pressing oil cylinder of the hydraulic oil press automatically rises after the pressing time is up, the automatic alarm prompt is given after the pressing of the hydraulic oil press in the central control console 17 is finished, and the operator knows that the pressing of the hydraulic oil press is finished.

When the control platform 17 is used for normal squeezing of the No. hydraulic oil press, the control platform 17 is used again to start the charging barrel and oil receiving disc conveyor 10, the charging barrel and oil receiving disc conveyor chain 14 rotates at the moment, the charging barrel and oil receiving disc conveyor tray 11 is conveyed to the position right in front of the No. hydraulic oil press, the charging barrel and oil receiving disc conveyor tray 11 is contacted with the charging barrel and oil receiving disc conveyor limit switch 16, the charging barrel and oil receiving disc conveyor tray 11 is just stopped right in front of the No. hydraulic oil press, an operator uses the control platform 17 again to start the automatic charging and discharging barrel and oil receiving disc device 22 of the No. hydraulic oil press, the charging barrel and oil receiving disc connecting integrated device 18 is pushed to the charging barrel and oil receiving disc conveyor tray 11 at the moment, the control platform 17 is used to start the automatic charging and discharging barrel and oil receiving disc device 22 of the pre-pressing cake all-in-machine 6, after the starting, the control platform 17 is used again to start and oil receiving disc conveyor 10, the charging barrel and oil receiving disc conveyor chain 14 starts to rotate, the conveyor tray 11 is conveyed to the position right in front of the pre-pressing cake discharging all-in-one machine 6, the charging barrel and oil receiving disc conveyor tray 11 is in contact with the charging barrel and oil receiving disc conveyor limit switch 16, the charging barrel and oil receiving disc conveyor tray 11 is just stopped right in front of the pre-pressing cake discharging all-in-one machine 6, at the moment, the automatic charging and discharging barrel and oil receiving disc device 22 of the pre-pressing cake discharging all-in-one machine 6 are started by the use of the console 17, and the charging barrel and oil receiving disc connecting all-in-one machine 18 is pulled into and positioned on the pre.

Then use console 17 start-up feed cylinder and connect food tray conveyer 10 again, at this moment the feed cylinder with connect food tray conveyer chain 14 to rotate, with feed cylinder and connect food tray conveyer tray 11 to the No. 6 hydraulic oil press dead ahead, feed cylinder and connect food tray conveyer tray 11 and feed cylinder and connect food tray conveyer limit switch 16 to take place the contact, feed cylinder and connect food tray conveyer tray 11 to stop just in No. five hydraulic oil press dead ahead.

An operator steps to the anti-skid pedal 12 in front of the pre-pressing and cake discharging integrated machine 6, manually pushes the pre-pressing device 7 away from the charging barrel and the oil receiving disc to be connected to a position right above the integrated device 18, and space is provided for the horizontal screw conveyor 5 to convey raw materials. At the moment, a cake discharging device 8 is started by using an operation button 9 of a vertical screw conveyer for pre-pressing cakes, a cake ejecting plate in a charging barrel is lifted to a position which is about 10 centimeters away from the top end of the charging barrel and is stopped, then the vertical screw conveyer 1 is started to lift raw materials into an automatic quantitative hopper 2, the automatic quantitative hopper 2 measures the weight of the raw materials entering the automatic quantitative hopper 2 through a weighing sensor, after the set weight is reached, a valve at the lower end of the weighing hopper is opened, the raw materials fall into a horizontal screw conveyer 5, at the moment, the horizontal screw conveyer 5 is started to convey the materials into the charging barrel of an integrated machine for pre-pressing cakes 6, at the moment, an operator puts a prepared material layering partition plate in advance, then pulls the pre-pressing device 7 to be right above the charging barrel, then the operation button 9 of the vertical screw conveyer for pre-pressing cakes is started to control the pre-pressing device 7, and, after the pre-pressing device is completed, the pre-pressing device 7 is manually pushed away from the position right above the material cylinder and oil receiving disc connection integrated device 18 to provide space for the horizontal spiral conveyor 5 to convey raw materials, and therefore pre-pressing work of the first cake in the material cylinder is completed. Then an operator starts an operation button 9 of the vertical screw conveyer for pre-pressing cakes to control the cake discharging device 8 to drop the cake ejecting plate in the charging barrel by the height of about 10 cm, advance work is done for pre-pressing for next charging, and then the operator finishes charging work of 12 cakes according to the steps. And the charging and squeezing work of the hydraulic oil press No. three, the hydraulic oil press No. four and the hydraulic oil press No. five is completed in sequence according to the flow.

All the No. one hydraulic oil press, the No. two hydraulic oil presses, the No. three hydraulic oil presses, the No. four hydraulic oil presses and the No. five hydraulic oil presses are in a pressing state at present, time differences are caused in all aspects such as charging and the like, after the center console 17 is designed to press time, an oil cylinder of the hydraulic oil presses automatically rises and is separated from the charging barrel and oil receiving disc connection integrated device 18, an operator enters the center console pedal 13, the center console 17 starts the charging barrel and oil receiving disc conveyor 10 to enable the charging barrel and oil receiving disc conveyor chain 14 to rotate, the charging barrel and oil receiving disc conveyor tray 11 is conveyed to the position right in front of the No. one hydraulic oil press, the charging barrel and oil receiving disc conveyor tray 11 is in contact with the charging barrel and oil receiving disc conveyor limit switch 16, the charging barrel and oil receiving disc conveyor tray 11 are just stopped right in front of the No. one hydraulic oil press, the operator starts an automatic charging barrel and discharging disc device 22 of the No. one hydraulic oil press by using the center console 17 again, the cartridge and drip pan attachment integral unit 18 is now pushed onto the cartridge and drip pan conveyor tray 11, at this time, the central console 17 is used to start the pre-pressing cake-out integrated machine 6 to automatically feed and discharge the material barrel and the oil receiving disc device 22, after the start is finished, when the material cylinder and oil receiving disc conveyor 10 is started by using the console 17 again, the chain 14 of the material cylinder and oil receiving disc conveyor starts to rotate, the material cylinder and oil receiving disc conveyor tray 11 is conveyed to the position right in front of the pre-pressing cake discharging integrated machine 6, the material cylinder and oil receiving disc conveyor tray 11 is contacted with the limit switch 16 of the material cylinder and oil receiving disc conveyor tray 11, the material cylinder and oil receiving disc conveyor tray 11 is just stopped at the position right in front of the pre-pressing cake discharging integrated machine 6, at this time, the central console 17 is used for starting the automatic material inlet and outlet barrel and oil receiving disc device 22 of the pre-pressing cake outlet all-in-one machine 6, and the material barrel and oil receiving disc connecting all-in-one device 18 is pulled in and positioned on the pre-pressing cake outlet all-in-one machine 19.

Then use console 17 start-up feed cylinder and connect food tray conveyer 10 again, at this moment the feed cylinder with connect food tray conveyer chain 14 to rotate, with feed cylinder and connect food tray conveyer tray 11 to the No. 6 hydraulic oil press dead ahead, feed cylinder and connect food tray conveyer tray 11 and feed cylinder and connect food tray conveyer limit switch 16 to take place the contact, feed cylinder and connect food tray conveyer tray 11 to stop just in No. five hydraulic oil press dead ahead.

An operator steps to the anti-skid pedal 12 in front of the pre-pressing and cake discharging integrated machine 6, and manually pushes the pre-pressing device 7 away from the position right above the charging barrel and oil receiving disc connection integrated device 18 to provide space for the cake discharging device 8. At the moment, the cake discharging device 8 is started by using the pre-pressing cake vertical screw conveyor operating button 9, the cake ejecting plate in the charging barrel is lifted, the pressed cake is exposed out of the charging barrel, at the moment, an operator removes the pressed cake from the equipment, the pressed cake is placed in a place where the normal use of the equipment is not obstructed, the operation is temporarily stored, the actions are repeated until all 12 cakes are removed, at the moment, the cake discharging device 8 is started by using the pre-pressing cake vertical screw conveyor operating button 9 again, the cake ejecting plate in the charging barrel is descended to the position which is approximately 10 centimeters away from the top end of the charging barrel, the preparation is made for the next charging, all the operations are continuously repeated, and the whole production process of the full-automatic hydraulic oil press production line is completed.

The technical principle of the present invention has been described above with reference to specific embodiments, which are merely preferred embodiments of the present invention. The utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongings the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. Those skilled in the art will appreciate that other embodiments of the invention can be devised which do not require inventive effort and which fall within the scope of the present invention.

Claims (10)

1. A combined full-automatic hydraulic oil press production line is characterized by comprising a vertical screw conveyor (1), an automatic quantitative hopper (2), a horizontal screw conveyor (5), a pre-pressing and cake discharging integrated machine (6), a charging barrel and oil receiving tray conveyor (10), a central control platform (17), a charging barrel and oil receiving tray connection integrated device (18), a hydraulic oil press (21), an automatic charging and discharging barrel and oil receiving tray device (22) and a hydraulic station (24), wherein the automatic quantitative hopper (2) is arranged at the top of the vertical screw conveyor (1), the horizontal screw conveyor (5) is connected below the automatic quantitative hopper (2), the pre-pressing and cake discharging integrated machine (6) is arranged on the side surface of the horizontal screw conveyor (5), a pre-pressing device (7) is arranged above the pre-pressing and cake discharging integrated machine (6), and a cake discharging device (8) is arranged on the side surface of the pre-pressing and cake discharging integrated machine (6, the cake discharging device (8) is arranged on the charging barrel and oil receiving disc conveyer (10); the hydraulic oil press (21) is arranged above the charging barrel and the oil receiving disc connection integrated device (18), and an oil outlet groove (20) is formed in the bottom side of the charging barrel and the oil receiving disc connection integrated device (18).

2. The production line of the combined full-automatic hydraulic oil press according to claim 1, wherein the vertical screw conveyor (1) consists of a screw conveyor body, a feeding and discharging device and a driving device, the screw conveyor body consists of a groove body and a screw shaft arranged in the groove body, a screw blade on the groove body is opposite to the groove body, and one end of the screw shaft is connected with the driving device.

3. The production line of the combined full-automatic hydraulic oil press as claimed in claim 2, wherein the feeding and discharging device comprises a feeding hopper and a discharging hopper, the feeding hopper is positioned at the bottom of the tank body, and the discharging hopper is positioned at the top of the tank body; the driving device and the discharge opening of the discharge hopper are arranged at the same end of the vertical screw conveyor (1), and the automatic quantitative hopper (2) is positioned at the discharge opening of the vertical screw conveyor (1).

4. The production line of a combined full-automatic hydraulic oil press according to claim 1, wherein the automatic quantitative hopper (2) is composed of a mechanical part and an electrical part, the mechanical part comprises a mechanical scale body, a speed regulating motor reducer, a belt, weights, a discharging cover and a hopper, and the electrical part comprises an automatic quantitative hopper control box (3) and elements for field control; the automatic quantitative hopper control box (3) is internally provided with a control instrument, a low-voltage electric element and a speed regulation controller, the field element comprises a weighing sensor, a speed sensor, a belt limit switch and a field control box, and the automatic quantitative hopper control box (3) is arranged on a quantitative control device bracket (4).

5. The production line of the combined full-automatic hydraulic oil press according to claim 3, wherein the horizontal screw conveyor (5) is a screw conveyor with a screw shaft forming an included angle of less than 15 degrees with the horizontal plane, the screw conveyor comprises a screw conveyor body, a feeding and discharging device and a driving device, the structure of the screw conveyor body is the same as that of the vertical screw conveyor (1), and the horizontal screw conveyor (5) is horizontally arranged.

6. The production line of the combined full-automatic hydraulic oil press according to claim 5, wherein the feed hopper of the horizontal screw conveyor (5) is communicated with the output end of the automatic quantitative hopper (2), and the discharge hopper of the horizontal screw conveyor (5) is connected with the pre-pressing cake-forming all-in-one machine (6).

7. The production line of the combined full-automatic hydraulic oil press according to claim 6, wherein the pre-cake-pressing all-in-one machine (6) comprises a base and an oil cylinder, the oil cylinder is fixed on the base, and a movable oil cylinder is arranged on a pre-pressing device (7) at the top of the pre-cake-pressing all-in-one machine (6).

8. The combined full-automatic hydraulic oil press production line according to claim 1, wherein the charging barrel and oil receiving disc conveyor (10) is arranged on one side of the pre-pressing cake all-in-one machine (6), and the charging barrel and oil receiving disc conveyor (10) is connected with the charging barrel and oil receiving disc conveyor tray (11) through a coupler, a reducer driving fluted disc and a driving chain.

9. The production line of the combined full-automatic hydraulic oil press according to claim 1, wherein the charging barrel and the oil receiving disc are connected into a whole device (18) which comprises a barrel body, an oil receiving disc is welded on the bottom end face of the barrel body, the barrel body and the oil receiving disc are connected into a whole device, a movable barrel bottom is installed at the bottom of the inner side of the barrel body and is positioned above the oil receiving disc, a hydraulic oil cylinder is connected to the lower surface of the barrel bottom of the barrel body, and a hydraulic oil press horizontal adjusting device (19) is installed at the bottom of the charging barrel and the oil receiving disc connected into a whole device (18.

10. The production line of the combined full-automatic hydraulic oil press according to claim 1, wherein the hydraulic oil press (21) comprises a hydraulic oil press, a hydraulic oil press and a hydraulic oil press, which are sequentially arranged, and the automatic feeding and discharging barrel and the oil receiving disc device limiting rod (23) are arranged on the side surfaces of the automatic feeding and discharging barrel and the oil receiving disc device (22).

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