CN112850630A - Filling system of petroleum product - Google Patents

Abstract

The invention discloses a filling system of petroleum products, which relates to the technical field of petroleum, wherein quantitative filling units are fixedly arranged in a bearing frame of equipment and at the top end of the bearing frame of the equipment together, a first supporting frame and a second supporting frame are fixedly welded on the front surface of the bearing frame of the equipment respectively, a packaging bottle conveying and gluing unit is fixedly arranged at the top ends of the first supporting frame and the second supporting frame and at the position right below a filling opening of the quantitative filling unit together, a label supplying unit and a full-automatic label pasting unit are fixedly connected in the first supporting frame and the second supporting frame in a clamping way respectively, the structure seamlessly butt-joints the quantitative filling unit and the full-automatic label pasting unit together when in actual use, the label pasting work on a packaging bottle is carried out simultaneously while the filling treatment of the petroleum products, and a transitional vacuum period does not exist between the filling and the label pasting, thereby greatly improving the production schedule of the petroleum products.

Description

Filling system of petroleum product

Technical Field

The invention relates to the technical field of petroleum, in particular to a filling system of petroleum products.

Background

Petroleum, one of the main objects of geological exploration, is a viscous, dark brown liquid called "industrial blood", with petroleum reserves in the upper part of the crust. The main component is a mixture of various alkanes, cycloalkanes and aromatics. The oil formation mechanism of petroleum has two theories of biological deposition and oil change and petrochemical oil, the former is widely accepted, and the petroleum is formed by the long evolution of organisms in ancient oceans or lakes, belongs to biological deposition and oil change and cannot be regenerated; the latter considers that oil is produced from the carbon in the earth's crust itself, is biologically unrelated and is renewable. Petroleum is used mainly as fuel and gasoline, and also as a raw material for many chemical industry products such as solutions, fertilizers, pesticides, and plastics.

Crude oil can be processed to yield a wide variety of products/products, such as crude oil, light oil, kerosene, and heavy oil, and lubricating oil is also one of the crude oil products/products, accounting for 5% of crude oil.

In the production and processing process of the lubricating oil, the finished product of the lubricating oil needs to be filled, namely the lubricating oil is quantitatively packaged in each packaging bottle by using a filling machine, and after filling, the packaging bottle also needs to be labeled;

the above-mentioned treatment processes have a sequence in the current production link, but cannot be carried out synchronously, and if the sequence exists, there will be intermediate transitional vacuum period, so that the production efficiency of the lubricating oil is low, therefore, the technical personnel in the field provide a filling system of petroleum products.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the filling system of the petroleum product, which can synchronously carry out filling and labeling treatment on the petroleum product, save a large amount of time and improve the production and processing progress.

In order to achieve the purpose, the invention is realized by the following technical scheme: a filling system of petroleum products comprises an equipment bearing frame, quantitative filling units are fixedly arranged in the equipment bearing frame and at the top end of the equipment bearing frame, a liquid leakage receiving unit is fixedly arranged in the equipment bearing frame and at a position adjacent to the filling opening of the quantitative filling unit, a first supporting frame and a second supporting frame are respectively fixedly welded on the front surface of the equipment bearing frame, the first supporting frame and the second supporting frame are two components which are symmetrical to each other and have the same structure, a packaging bottle conveying gluing unit is fixedly arranged at the top ends of the first supporting frame and the second supporting frame and at the position right below the filling opening of the quantitative filling unit, a label supply unit and a full-automatic label pasting unit are fixedly connected in the first supporting frame and the second supporting frame in a clamping way respectively, the label supply unit is positioned between the packaging bottle conveying and gluing unit and the full-automatic label pasting unit;

the label supply unit comprises a first frame body movably arranged between a first support frame and a second support frame, two feeding cylinders are symmetrically arranged inside the first frame body, the telescopic ends of the two feeding cylinders are vertically upward and are jointly and fixedly provided with a bearing base plate, a plurality of groups of label limiting parts are arranged at the top end of the bearing base plate at equal intervals, first positioning plates are fixedly welded at the tops of two sides of the first frame body, and a first positioning pin shaft is correspondingly inserted into the inside of each first positioning plate;

the full-automatic label pasting unit comprises a second car frame body movably arranged between a first supporting frame and a second supporting frame, two limiting and directional runways are symmetrically arranged in the second car frame body, a motor mounting seat and a bearing seat are respectively and fixedly arranged at the position, between the two limiting and directional runways, in the second car frame body, a servo motor is fixedly arranged in the motor mounting seat, a lead screw is fixedly connected between the driving end of the servo motor and the rotating end in the bearing seat, a bearing slide seat is connected outside the lead screw in a sliding manner in a threaded manner, a roller is fixedly arranged below the two ends of the bearing slide seat, the roller is positioned in the limiting and directional runways, two lifting hydraulic cylinders with vertically upward telescopic ends are symmetrically arranged at the top end of the bearing slide seat, and a group of outer rubbing frame bodies are fixedly arranged at the telescopic ends of the two lifting hydraulic cylinders, the outer expansion frame body is adjacent to one end of the label supply unit and is connected in series through a transmission shaft rod, a second positioning plate is fixedly welded to the tops of two sides of the second frame body, a second positioning pin shaft is correspondingly inserted into the second positioning plate, a plurality of groups of label adsorption mechanisms distributed at equal intervals are fixedly welded to the outer portion of the transmission shaft rod, one end of the transmission shaft rod extends to the outer portion of the outer expansion frame body and is fixedly provided with a driven belt wheel, a driving motor is fixedly installed on the inner side of the outer expansion frame body, and a driving end of the driving motor penetrates through the outer expansion frame body and is fixedly provided with the driving belt wheel.

Further, every group the inside of sign locating part all piles up and has placed a plurality of product signs, every group all be provided with four arcs that are used for restricting the product sign and place the position in the sign locating part, four arcs are the four-point distribution of rectangle.

Furthermore, a rotary connecting structure is formed between the transmission shaft lever and the outer rubbing frame body through a bearing.

Furthermore, a synchronous belt is sleeved outside the driven belt wheel and the driving belt wheel together, the transmission ratio of the driven belt wheel to the driving belt wheel is 1:1, and the driving belt wheel is driven by the driving motor to perform forward and reverse rotation alternate actions with an arc angle of 90 degrees.

Further, the quantitative filling unit comprises a pump body upper layer fixing plate and a pump body lower layer fixing plate which are fixedly installed inside the equipment bearing frame, and a plurality of groups of precision metering pumps distributed at equal intervals are fixedly installed on the pump body upper layer fixing plate and the pump body lower layer fixing plate together.

Further, the quantitative filling unit still includes tube head lower floor's fixed plate and tube head upper strata fixed plate of fixed mounting inside equipment bearing frame the common fixed mounting in inside of tube head lower floor's fixed plate and tube head upper strata fixed plate has a plurality of equidistance distribution's filling tube head, every the liquid outlet of filling tube head has all concatenated a solenoid valve.

Furthermore, the quantitative filling unit further comprises a supporting frame fixedly installed at the top end of the equipment bearing frame, a liquid storage tank is fixedly installed above the supporting frame, a liquid level sensor and a liquid adding pipe are respectively and fixedly installed at the top end of the liquid storage tank, and a detection section of the liquid level sensor extends to the inside of the liquid storage tank.

Furthermore, a plurality of liquid outlets are formed in the bottom of the liquid storage box, and each liquid outlet is connected with the liquid inlet of each group of precision metering pumps in the corresponding position in series through a section of liquid pumping pipe.

Furthermore, the liquid outlet of each group of precision metering pumps is connected with the liquid inlet of each filling pipe head at the corresponding position in series through a two-section liquid pumping pipe.

Further, liquid connects hourglass unit includes the fixing base of fixed mounting on tube head lower floor's fixed plate top the intermediate position fixed mounting of fixing base has the propelling movement cylinder, and all runs through in the both sides of fixing base and install an axle sleeve, every the equal sliding connection in inside of axle sleeve has a direction axostylus axostyle, the flexible end of propelling movement cylinder and the common fixedly connected with top of the one end of two direction axostylus axostyles connect the liquid box for open structure.

Furthermore, the packaging bottle conveying and gluing unit comprises a conveying belt fixedly mounted at the tops of the first supporting frame and the second supporting frame, and a plurality of product packaging bottles distributed at equal intervals are placed on a conveying section of the conveying belt.

Further, the edge fixed mounting of conveyer belt material loading mouth has a roller mounting base the top of roller mounting base is rotated and is connected with a rubber coating roller, every when the conveyer belt was followed to the product packing bottle and is removed, every the one side of product packing bottle label all is in the same place with the laminating of rubber coating roller.

Furthermore, two guide rod mounting bases are fixedly mounted at two ends of the conveying belt, two pressure-bearing guide rods are mounted between the two guide rod mounting bases, two cylinder mounting bases are fixedly mounted outside the two pressure-bearing guide rods, the two cylinder mounting bases are symmetrically arranged on the pressure-bearing guide rods, a material blocking cylinder is fixedly mounted at the top of each cylinder mounting base, a cylinder rod is connected in the material blocking cylinder, and the cylinder rod is located above the conveying belt when driven to extend by the material blocking cylinder.

Furthermore, the first support frame comprises a frame body which is fixed and welded with the bottom of the front side of the equipment bearing frame, a first pin hole and a second pin hole are respectively formed in the top end of the frame body, and the positions of the first pin hole and the second pin hole correspond to the positions of the first positioning pin shaft and the second positioning pin shaft respectively.

Furthermore, the label adsorption mechanism comprises a joint rod with the top end fixedly welded outside the transmission shaft rod, the bottom end of the joint rod is fixedly connected with an airflow box body, the bottom end of the airflow box body is plugged through a cover plate with a matched size, and a plurality of adsorption through holes are formed in the cover plate.

Furthermore, an airflow guide pipe is fixedly connected to the top end of the airflow box body, and the bottom end of the airflow guide pipe extends into the airflow box body.

Advantageous effects

The invention provides a filling system for petroleum products. Compared with the prior art, the method has the following beneficial effects:

1. a filling system of petroleum products is characterized in that a quantitative filling unit is fixedly mounted inside and at the top end of an equipment bearing frame together, a liquid leakage receiving unit is fixedly mounted inside the equipment bearing frame and at a position adjacent to a filling opening of the quantitative filling unit, a first supporting frame and a second supporting frame are fixedly welded on the front surface of the equipment bearing frame respectively, the first supporting frame and the second supporting frame are two components which are symmetrical to each other and have the same structure, a packaging bottle conveying gluing unit is fixedly mounted at the top end of the first supporting frame and the second supporting frame and at a position right below the filling opening of the quantitative filling unit together, a label supply unit and a full-automatic label pasting unit are fixedly connected inside the first supporting frame and the second supporting frame in a clamping mode respectively, and the quantitative filling unit and the full-automatic label pasting unit are in seamless butt joint together in actual use, the label is pasted on the packaging bottle while the petroleum product is filled, and a transitional vacuum period does not exist between filling and label pasting, so that the production progress of the petroleum product can be greatly improved.

2. The utility model provides a filling system of petroleum product, the sign that sets up is supplied with the unit and is covered the unit with full-automatic sign subsides and all can break away from whole platform equipment, convenient transportation and follow-up sign that adds to the sign is supplied with unit and is covered the unit with full-automatic sign subsides and is supporting to have location structure, can let the sign supply with unit and full-automatic sign subsides and cover the accurate assembly of unit to whole platform equipment on, so that improve the accuracy that follow-up sign was pasted and is covered.

3. The utility model provides a filling system of petroleum product, the liquid that sets up connects hourglass unit, when in actual use, after the filling of a batch of packing bottles was accomplished, liquid connects hourglass unit can move rapidly to the filling tube head under, catches the overhead remaining petroleum product of filling tube to can effectively prevent that petroleum product from dripping the problem that causes the pollution on equipment.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic diagram of the quantitative filling unit according to the present invention;

FIG. 3 is a left side view of the unit of the present invention;

FIG. 4 is a schematic structural diagram of a liquid leakage receiving unit according to the present invention;

FIG. 5 is a schematic structural view of a conveying and gluing unit for packaging bottles of the present invention;

FIG. 6 is a schematic structural diagram of a first support frame according to the present invention;

fig. 7 is a schematic view showing the construction of a label supplying unit according to the present invention;

FIG. 8 is a schematic structural view of a full-automatic label applying unit according to the present invention;

FIG. 9 is an enlarged view of the portion A of FIG. 8 according to the present invention;

FIG. 10 is a schematic view of a first perspective of a label holding mechanism according to the present invention;

fig. 11 is a schematic diagram of a second viewing angle of the label holding mechanism of the present invention.

In the figure: 1. an equipment carrying frame; 2. a quantitative filling unit; 21. an upper layer fixing plate of the pump body; 22. a lower-layer fixed plate of the pump body; 23. a precision metering pump; 24. a tube head lower layer fixing plate; 25. an upper layer fixing plate of the pipe head; 26. filling the tube head; 27. an electromagnetic valve; 28. a support frame; 29. a liquid storage tank; 210. a liquid level sensor; 211. a liquid addition pipe; 212. a section liquid pumping tube; 213. a two-section liquid pumping pipe; 3. a liquid leakage receiving unit; 31. a fixed seat; 32. a push cylinder; 33. a shaft sleeve; 34. a guide shaft lever; 35. a liquid receiving box; 4. a packaging bottle conveying and gluing unit; 41. a conveyor belt; 42. packaging the product; 43. a roller mounting base; 44. a gluing roller; 45. a guide rod mounting base; 46. a pressure-bearing guide rod; 47. a cylinder mounting seat; 48. a material blocking cylinder; 49. a cylinder rod; 5. a first support frame; 51. a frame body; 52. a first pin hole; 53. a second pin hole; 6. a second support frame; 7. a label supplying unit; 71. a first frame body; 72. a feeding cylinder; 73. a carrier substrate; 74. a sign limit; 75. a product label; 76. a first positioning plate; 77. a first positioning pin shaft; 8. a full-automatic label attaching unit; 81. a second frame body; 82. limiting a directional runway; 83. a motor mounting seat; 84. a bearing seat; 85. a servo motor; 86. a lead screw; 87. a bearing slide seat; 88. a roller; 89. a lifting hydraulic cylinder; 810. externally expanding the frame body; 811. a drive shaft; 812. a second positioning plate; 813. a second positioning pin shaft; 814. a label adsorption mechanism; 8141. a connecting rod; 8142. an airflow box body; 8143. a cover plate; 8144. an air flow conduit; 8145. an adsorption through hole; 815. a driven pulley; 816. a drive motor; 817. a driving pulley; 818. a synchronous belt; 819. and a bearing.

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, the present invention provides a technical solution: a filling system of petroleum products comprises an equipment bearing frame 1, quantitative filling units 2 are fixedly arranged inside and at the top end of the equipment bearing frame 1, a liquid leakage receiving unit 3 is fixedly arranged inside the equipment bearing frame 1 and at a position adjacent to a filling opening of the quantitative filling unit 2, a first supporting frame 5 and a second supporting frame 6 are fixedly welded on the front surface of the equipment bearing frame 1 respectively, the first supporting frame 5 and the second supporting frame 6 are two components which are symmetrical to each other and have the same structure, a packaging bottle conveying gluing unit 4 is fixedly arranged at the top end of the first supporting frame 5 and the second supporting frame 6 and at a position right below the filling opening of the quantitative filling unit 2, a label supply unit 7 and a full-automatic label pasting unit 8 are fixedly connected inside the first supporting frame 5 and the second supporting frame 6 in a clamping manner respectively, the label supply unit 7 is positioned between the packaging bottle conveying and gluing unit 4 and the full-automatic label applying unit 8.

Referring to fig. 7, the sign supplying unit 7 includes a first frame body 71 movably disposed between the first support frame 5 and the second support frame 6, two feeding cylinders 72 are symmetrically disposed inside the first frame body 71, the telescopic ends of the two feeding cylinders 72 are both vertically upward, and a carrying substrate 73 is fixedly disposed together, a plurality of sets of sign limiting members 74 are equidistantly disposed on the top end of the carrying substrate 73, a plurality of product signs 75 are stacked inside each set of sign limiting members 74, four arc plates for limiting the placement positions of the product signs 75 are disposed in each set of sign limiting members 74, the four arc plates are distributed in four rectangular points, a first positioning plate 76 is fixedly welded on the top of each of two sides of the first frame body 71, and a first positioning pin 77 is correspondingly inserted inside each first positioning plate 76.

Referring to fig. 8-9, the full-automatic label sticking unit 8 includes a second frame body 81 movably disposed between the first support frame 5 and the second support frame 6, two position-limiting and orientation tracks 82 symmetrically disposed inside the second frame body 81, a motor mounting seat 83 and a bearing seat 84 respectively fixedly disposed inside the second frame body 81 and between the two position-limiting and orientation tracks 82, a servo motor 85 fixedly disposed inside the motor mounting seat 83, a lead screw 86 fixedly connected between a driving end of the servo motor 85 and a rotating end inside the bearing seat 84, a bearing slide seat 87 slidably connected outside the lead screw 86 in a threaded manner, a roller 88 fixedly disposed below both ends of the bearing slide seat 87, a roller 88 disposed inside the position-limiting and orientation track 82, two vertically upward extending hydraulic cylinders 89 symmetrically disposed at a top end of the bearing slide seat 87, a group of external extension frame bodies 810 are fixedly mounted at the telescopic ends of the two lifting hydraulic cylinders 89 together, one ends of the external extension frame bodies 810 adjacent to the label supply unit 7 are connected in series through a transmission shaft rod 811, a rotary connection structure is formed between the transmission shaft rod 811 and the external extension frame bodies 810 through bearings 819, a second positioning plate 812 is fixedly welded at the top of each of two sides of the second frame body 81, a second positioning pin shaft 813 is correspondingly inserted in each second positioning plate 812, a plurality of groups of label adsorption mechanisms 814 distributed at equal intervals are fixedly welded at the outer part of the transmission shaft rod 811, one end of the transmission shaft rod 811 extends to the outer part of the external extension frame body 810, a driven pulley 815 is fixedly mounted at the inner side of the external extension frame body 810, a driving motor 816 is fixedly mounted at the inner side of the external extension frame body 810, and a driving pulley 817 is fixedly mounted at the driving end of the driving motor 816, a synchronous belt 818 is sleeved outside the driven pulley 815 and the driving pulley 817 together, the transmission ratio of the driven pulley 815 to the driving pulley 817 is 1:1, and the driving pulley 817 is driven by the driving motor 816 to perform forward and reverse rotation alternate actions with 90-degree arc angles.

Referring to fig. 2-3, the quantitative filling unit 2 includes a pump body upper fixing plate 21 and a pump body lower fixing plate 22 fixedly installed inside the equipment carrying frame 1, and a plurality of sets of precision metering pumps 23 distributed at equal intervals are fixedly installed on the pump body upper fixing plate 21 and the pump body lower fixing plate 22 together.

Meanwhile, the quantitative filling unit 2 further comprises a tube head lower layer fixing plate 24 and a tube head upper layer fixing plate 25 which are fixedly installed inside the equipment bearing frame 1, a plurality of filling tube heads 26 which are distributed at equal intervals are fixedly installed inside the tube head lower layer fixing plate 24 and the tube head upper layer fixing plate 25, and a solenoid valve 27 is connected to a liquid outlet of each filling tube head 26 in series.

In addition, the quantitative filling unit 2 further comprises a supporting frame 28 fixedly mounted at the top end of the equipment bearing frame 1, a liquid storage tank 29 is fixedly mounted above the supporting frame 28, a liquid level sensor 210 and a liquid adding pipe 211 are respectively fixedly mounted at the top end of the liquid storage tank 29, a detection section of the liquid level sensor 210 extends into the liquid storage tank 29, a plurality of liquid outlets are formed at the bottom of the liquid storage tank 29, and each liquid outlet is connected in series with a liquid inlet of each group of precision metering pumps 23 at a corresponding position through a section of liquid pumping pipe 212; the liquid outlet of each group of precision metering pumps 23 is connected in series with the liquid inlet of each filling pipe head 26 at the corresponding position through a two-section liquid pumping pipe 213.

Referring to fig. 4, the liquid leakage receiving unit 3 includes a fixing base 31 fixedly installed on the top end of the tube head lower layer fixing plate 24, a pushing cylinder 32 is fixedly installed in the middle of the fixing base 31, two shaft sleeves 33 are respectively installed on two sides of the fixing base 31 in a penetrating manner, a guiding shaft rod 34 is slidably connected inside each shaft sleeve 33, and a liquid receiving box 35 with an open top is fixedly connected to the telescopic end of the pushing cylinder 32 and one end of each of the two guiding shaft rods 34.

Referring to fig. 5, the packaging bottle conveying and gluing unit 4 includes a conveyor belt 41 fixedly installed on the top of the first support frame 5 and the second support frame 6, and a plurality of product packaging bottles 42 distributed at equal intervals are placed on the conveying section of the conveyor belt 41; a roller mounting base 43 is fixedly mounted at the edge of the feeding hole of the conveying belt 41, a gluing roller 44 is rotatably connected above the roller mounting base 43, and when each product packaging bottle 42 moves along with the conveying belt 41, one surface of each product packaging bottle 42, which is pasted with the label, is pasted with the gluing roller 44; two guide rod mounting bases 45 are fixedly mounted at two ends of the conveying belt 41, two pressure-bearing guide rods 46 are mounted between the two guide rod mounting bases 45, two cylinder mounting bases 47 are fixedly mounted outside the two pressure-bearing guide rods 46, the two groups of cylinder mounting bases 47 are symmetrically arranged on the pressure-bearing guide rods 46, a material stopping cylinder 48 is fixedly mounted at the top of each group of cylinder mounting bases 47, a cylinder rod 49 is connected in the material stopping cylinder 48, and the cylinder rod 49 is located above the conveying belt 41 when being driven and extended by the material stopping cylinder 48.

Referring to fig. 6, the first supporting frame 5 includes a frame body 51 fixed to the bottom of the front side of the equipment supporting frame 1 and welded together, a first pin hole 52 and a second pin hole 53 are respectively formed in the top end of the frame body 51, and positions of the first pin hole 52 and the second pin hole 53 respectively correspond to positions of the first positioning pin 77 and the second positioning pin 813.

Referring to fig. 10 to 11, the label adsorbing mechanism 814 includes an attachment rod 8141 having a top end fixedly welded to the outside of the transmission shaft 811, the bottom end of the attachment rod 8141 is fixedly connected to an airflow box 8142, the bottom end of the airflow box 8142 is blocked by a cover plate 8143 having a suitable size, a plurality of adsorbing through holes 8145 are formed in the cover plate 8143, the top end of the airflow box 8142 is fixedly connected to an airflow duct 8144, and the bottom end of the airflow duct 8144 extends to the inside of the airflow box 8142.

In use, first, preparation is required to pump the petroleum product (liquid) into the liquid storage tank 29, and further, product tags 75 of equal thickness are placed inside each set of tag stoppers 74;

subsequently, the whole label supplying unit 7 is pushed into the space reserved between the first supporting frame 5 and the second supporting frame 6, and in the pushing process, until the first pin holes 52 are overlapped with the pin holes (not marked in the figure) formed in the first positioning plate 76, and then the first positioning pin shaft 77 is inserted;

then, the whole full-automatic label pasting unit 8 is pushed into the reserved space between the first support frame 5 and the second support frame 6, and after the second pin hole 53 is overlapped with a pin hole (not marked in the figure) formed in the second positioning plate, the second positioning pin shaft 813 is inserted, and the preparation work is finished;

after filling, the pushing cylinder 32 pushes the liquid receiving box 35 to move to the lower part of the electromagnetic valve 27, so that the petroleum products remained at the outlet of the electromagnetic valve 27 are received, and pollution is prevented.

Starting a material blocking cylinder 48 at one side close to the outlet of the conveying belt 41, enabling the material blocking cylinder 48 to push a cylinder rod 49 to extend out and be positioned above the conveying belt 41, meanwhile, placing product packaging bottles 42 on the conveying belt 41, enabling the product packaging bottles 42 to move along the conveying direction of the conveying belt 41 until the product packaging bottles are blocked by the cylinder rod 49, continuing to place the product packaging bottles 42 until the number of the placed product packaging bottles 42 is consistent with the number of the filling tube heads 26, starting the material blocking cylinder 48 at one side close to the inlet of the conveying belt 41, and enabling the cylinder rod 49 carried by the cylinder to restrain the batch of product packaging bottles 42;

then, the precision metering pump 23 is started, the liquid in the liquid storage tank 29 sequentially passes through the first-section liquid pumping pipe 212 and the second-section liquid pumping pipe 213 to enter the filling pipe head 26, and finally the electromagnetic valve 27 is controlled to be opened, so that the petroleum product is quantitatively subpackaged into the batch of product packaging bottles 42, and the filling treatment is completed;

when the filling treatment process is carried out, the label pasting work is carried out synchronously, and when the product packaging bottle 42 enters the conveying belt 41, the gluing roller 44 can brush glue on the label pasting surface of the product packaging bottle 42, so that convenience is brought to the subsequent label pasting work;

when the product label 75 is attached, firstly, the whole label adsorption mechanism 814 is defaulted to be in a vertically downward state, two lifting hydraulic cylinders 89 are controlled to be shortened, the height of each label adsorption mechanism 814 is reduced, an external vacuum generator (not shown in the figure) is started after the cover plate 8143 is contacted with the most surface product label 75, the vacuum generator is connected with the air flow guide pipe 8144 in series through a pipeline, when the vacuum generator exhausts air, the interior of the air flow box body 8142 is in a negative pressure state, the product label 75 is adsorbed, and after adsorption, the two lifting hydraulic cylinders 89 are extended to the original initial height;

then, the driving motor 816 acts to drive the driving pulley 817 to rotate 90 ° clockwise, and under the action of the synchronous belt 818, the driven pulley 815 is driven to rotate 90 ° clockwise synchronously, because the driven pulley 815 is fixedly connected with the transmission shaft 811, and the whole label adsorption mechanism 814 is fixedly connected with the transmission shaft 811, when the driven pulley 815 drives the transmission shaft 811 to rotate 90 ° clockwise, the transmission shaft 811 will also drive each label adsorption mechanism 814 adsorbed with the product label 75 to rotate 90 ° clockwise, so that the original label adsorption mechanism 814 in a vertical state becomes a horizontal state;

subsequently, the servo motor 85 drives the screw rod 86 to rotate, and as the screw rod 86 is in threaded connection with the bearing slide seat 87 and under the action of the roller 88 and the limiting and orienting track 82, when the screw rod 86 rotates in the forward direction, the bearing slide seat 87 and each label adsorption mechanism 814 are pushed to integrally move towards the direction of the label-attached side of the product packaging bottle 42 until the product label 75 is attached to the product packaging bottle 42.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The filling system for the petroleum products is characterized by comprising an equipment bearing frame (1), wherein a quantitative filling unit (2) is fixedly mounted inside the equipment bearing frame (1) and at the top end together, a liquid leakage receiving unit (3) is fixedly mounted inside the equipment bearing frame (1) and at the position adjacent to a filling opening of the quantitative filling unit (2), a first supporting frame (5) and a second supporting frame (6) are fixedly welded on the front surface of the equipment bearing frame (1) respectively, the first supporting frame (5) and the second supporting frame (6) are two components which are symmetrical to each other and have the same structure, a packaging bottle conveying gluing unit (4) is fixedly mounted at the top end of the first supporting frame (5) and the second supporting frame (6) and at the position under the filling opening of the quantitative filling unit (2) together, a label supply unit (7) and a full-automatic label pasting unit (8) are fixedly connected inside the first supporting frame (5) and the second supporting frame (6) in a clamping manner respectively, and the label supply unit (7) is positioned between the packaging bottle conveying and gluing unit (4) and the full-automatic label pasting unit (8);

the label supply unit (7) comprises a first vehicle frame body (71) movably arranged between a first supporting frame (5) and a second supporting frame (6), two feeding cylinders (72) are symmetrically arranged inside the first vehicle frame body (71), the telescopic ends of the two feeding cylinders (72) are vertically upward and are jointly and fixedly provided with a bearing base plate (73), a plurality of groups of label limiting parts (74) are arranged at equal intervals on the top end of the bearing base plate (73), a first positioning plate (76) is fixedly welded on the top of each of the two sides of the first vehicle frame body (71), and a first positioning pin shaft (77) is correspondingly inserted into each of the first positioning plates (76);

the full-automatic label pasting unit (8) comprises a second carriage body (81) movably arranged between a first supporting frame (5) and a second supporting frame (6), two limiting and directional runways (82) are symmetrically arranged inside the second carriage body (81), a motor mounting seat (83) and a bearing seat (84) are respectively and fixedly arranged at the position, between the two limiting and directional runways (82), inside the second carriage body (81), a servo motor (85) is fixedly arranged inside the motor mounting seat (83), a lead screw (86) is fixedly connected between the driving end of the servo motor (85) and the rotating end inside the bearing seat (84) together, a bearing slide seat (87) is connected outside the lead screw (86) in a sliding mode in a threaded mode, and a roller (88) is fixedly arranged below the two ends of the bearing slide seat (87), the roller (88) is positioned inside a limiting and orienting track (82), two lifting hydraulic cylinders (89) with telescopic ends which are vertically upward are symmetrically installed at the top end of the bearing sliding seat (87), a group of external expansion frame bodies (810) are jointly and fixedly installed at the telescopic ends of the two lifting hydraulic cylinders (89), one ends of the external expansion frame bodies (810) adjacent to the sign supply unit (7) are connected in series through a transmission shaft lever (811), a second positioning plate (812) is fixedly welded at the tops of two sides of the second frame body (81), a second positioning pin shaft (813) is correspondingly inserted into the inside of each second positioning plate (812), a plurality of groups of sign adsorption mechanisms (814) which are distributed at equal intervals are fixedly welded outside the transmission shaft lever (811), one end of the transmission shaft lever (811) extends to the outside of the external expansion frame body (810), and a driven belt wheel (815) is fixedly installed, a driving motor (816) is fixedly installed on the inner side of the outer rubbing frame body (810), the driving end of the driving motor (816) penetrates through the outer rubbing frame body (810), and a driving belt wheel (817) is fixedly installed.

2. The petroleum product filling system according to claim 1, wherein a plurality of product labels (75) are stacked inside each group of label limiting members (74), four arc plates for limiting the placement positions of the product labels (75) are arranged in each group of label limiting members (74), and the four arc plates are distributed in four points of a rectangle.

3. The system for filling petroleum products according to claim 1, wherein the transmission shaft (811) and the outer rubbing frame body (810) form a rotary connection structure through a bearing (819);

a synchronous belt (818) is sleeved outside the driven pulley (815) and the driving pulley (817) together, the transmission ratio of the driven pulley (815) to the driving pulley (817) is 1:1, and the driving pulley (817) is driven by the driving motor (816) to perform forward and reverse rotation alternate actions with an arc angle of 90 degrees.

4. The petroleum product filling system according to claim 1, wherein the quantitative filling unit (2) comprises a pump body upper layer fixing plate (21) and a pump body lower layer fixing plate (22) which are fixedly installed inside the equipment bearing frame (1), and a plurality of groups of precision metering pumps (23) which are distributed at equal intervals are fixedly installed on the pump body upper layer fixing plate (21) and the pump body lower layer fixing plate (22) together;

the quantitative filling unit (2) further comprises a tube head lower layer fixing plate (24) and a tube head upper layer fixing plate (25) which are fixedly arranged in the equipment bearing frame (1), a plurality of filling tube heads (26) which are distributed at equal intervals are fixedly arranged in the tube head lower layer fixing plate (24) and the tube head upper layer fixing plate (25) together, and a liquid outlet of each filling tube head (26) is connected with an electromagnetic valve (27) in series;

quantitative filling unit (2) still include braced frame (28) on equipment bearing frame (1) top fixed mounting have liquid storage box (29) in braced frame's (28) top fixed mounting respectively there are level sensor (210) and liquid interpolation pipe (211) in the top of liquid storage box (29), the detection zone section of level sensor (210) extends to the inside of liquid storage box (29).

5. A petroleum product filling system according to claim 1, wherein a plurality of liquid outlets are formed at the bottom of the liquid storage tank (29), and each liquid outlet is connected in series with the liquid inlet of each group of precision metering pumps (23) at the corresponding position through a section of liquid pumping pipe (212);

the liquid outlet of each group of the precise metering pumps (23) is connected with the liquid inlet of each filling pipe head (26) at the corresponding position in series through a two-section liquid pumping pipe (213).

6. The petroleum product filling system according to claim 1, wherein the liquid leakage receiving unit (3) comprises a fixed seat (31) fixedly mounted at the top end of a tube head lower layer fixed plate (24), a pushing cylinder (32) is fixedly mounted in the middle of the fixed seat (31), shaft sleeves (33) are respectively mounted on two sides of the fixed seat (31) in a penetrating manner, each shaft sleeve (33) is slidably connected with a guide shaft rod (34), and a liquid receiving box (35) with an open top is fixedly connected with the telescopic end of the pushing cylinder (32) and one end of each of the two guide shaft rods (34).

7. The system for filling petroleum products according to claim 1, wherein the packaging bottle conveying and gluing unit (4) comprises a conveyor belt (41) fixedly mounted on the top of the first support frame (5) and the second support frame (6), a plurality of product packaging bottles (42) are placed on the conveying section of the conveyor belt (41) and are distributed at equal intervals;

a roller mounting base (43) is fixedly mounted at the edge of the feeding hole of the conveying belt (41), a gluing roller (44) is rotatably connected above the roller mounting base (43), and when each product packaging bottle (42) moves along with the conveying belt (41), one surface, attached with a label, of each product packaging bottle (42) is attached to the gluing roller (44);

the conveying belt is characterized in that two guide rod mounting bases (45) are fixedly mounted at two ends of the conveying belt (41), two pressure-bearing guide rods (46) are mounted between the two guide rod mounting bases (45), two air cylinder mounting seats (47) are fixedly mounted outside the two pressure-bearing guide rods (46) jointly, the two air cylinder mounting seats (47) are symmetrically arranged on the pressure-bearing guide rods (46), each air cylinder mounting seat (47) is fixedly mounted at the top of each group, a material blocking air cylinder (48) is fixedly mounted at the top of each material blocking air cylinder (48), an air cylinder rod (49) is connected in the material blocking air cylinder (48), and the air cylinder rod (49) is located above the conveying belt (41) when being driven to extend by the material blocking air cylinder (48.

8. The petroleum product filling system according to claim 1, wherein the first support frame (5) comprises a frame body (51) fixed and welded with the bottom of the front side of the equipment bearing frame (1), a first pin hole (52) and a second pin hole (53) are respectively formed in the top end of the frame body (51), and the positions of the first pin hole (52) and the second pin hole (53) correspond to the positions of the first positioning pin shaft (77) and the second positioning pin shaft (813), respectively.

9. The petroleum product filling system according to claim 1, wherein the label adsorption mechanism (814) comprises an engagement rod (8141) with a top end fixedly welded to the outside of the transmission shaft (811), a bottom end of the engagement rod (8141) is fixedly connected with an airflow box body (8142), a bottom end of the airflow box body (8142) is blocked by a cover plate (8143) with a matched size, and a plurality of adsorption through holes (8145) are formed in the cover plate (8143).

10. A petroleum product filling system according to claim 1, wherein an air flow conduit (8144) is fixedly connected to the top end of the air flow box body (8142), and the bottom end of the air flow conduit (8144) extends to the inside of the air flow box body (8142).

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