CN219687720U - Cool agent partial shipment device - Google Patents

Abstract

The utility model relates to the technical field of split charging equipment, in particular to a cooling agent split charging device; including the workbin, connecting plate, opposite side rigid coupling have the mounting panel are installed to workbin one side, and the bottom surface of workbin still is provided with a set of discharging pipe, the discharging pipe outer end is connected with the right angle return bend, and the outer end and the three-way pipe of right angle return bend are connected, and the fixed block is installed to the three-way pipe upper end and the pushing equipment who is located the fixed block, and the filling mouth is installed to the lower extreme of three-way pipe, still is connected with the three-way valve between right angle return bend and the three-way pipe, and the upper end of three-way valve still is provided with the ration bucket, and the ration bucket passes through the graduated flask locating plate to be fixed on the mounting panel, and the upper end of ration bucket still is connected with piston head and piston rod, still is provided with the discharge mechanism of drive piston rod on the mounting panel, still be provided with the switch mechanism who is connected with the workbin on the side of three-way valve. According to the cooling agent split charging device, multiple stations are adopted for split charging simultaneously, the split charging quantity can be accurately controlled, and the split charging efficiency is improved.

Description

Cool agent partial shipment device

Technical Field

The utility model relates to the technical field of split charging equipment, in particular to a cooling agent split charging device.

Background

The cooling agent is the general name of all chemical substances which can generate cooling effect and have weak drug property. The most common cooling agents are menthol, especially l-menthol, but are not suitable for use in large amounts due to their strong smell and strong irritation to skin, mucosal tissue and eyes. Therefore, a new generation of cooling agents are synthesized and extracted by a plurality of scientists.

In the processing production of coolant agent, need generally with the coolant agent partial shipment that prepares in a plurality of containers, current partial shipment equipment can only partial shipment to a container according to once in the use, and through manual control ejection of compact when partial shipment, the storage volume after the partial shipment can not accurate control, leads to partial shipment inefficiency.

Disclosure of Invention

The purpose of the utility model is that: the utility model provides a cooling agent partial shipment device adopts the multistation to partial shipment simultaneously to can accurate control partial shipment volume improves partial shipment efficiency.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a cooling agent partial shipment device, includes the workbin, connecting plate, opposite side rigid coupling are installed to workbin one side, and the bottom surface of workbin still is provided with a set of discharging pipe, discharging pipe outer end and right angle return bend are connected, and the outer end and the three-way pipe of right angle return bend are connected, and fixed block and the pushing equipment who is located the fixed block are installed to the three-way pipe upper end, and the filling mouth is installed to the lower extreme of three-way pipe, still is connected with the three-way valve between right angle return bend and the three-way pipe, and the upper end of three-way valve still is provided with the ration bucket, and the ration bucket passes through the graduated flask locating plate to be fixed on the mounting panel, and the upper end of ration bucket still is connected with piston head and piston rod, and wherein piston head sliding connection is in the ration bucket, and the piston rod passes through the piston locating plate to be fixed on the mounting panel, and the lower extreme and the piston head rigid coupling of piston rod still are provided with the discharge mechanism of drive piston rod on the mounting panel, still be provided with the switch mechanism who is connected with the workbin on the side of three-way valve.

Further, the pushing mechanism comprises a cylinder body, a fixed column, a top rod and an extrusion head, wherein the cylinder body is fixedly connected to the fixed block through the fixed column, the top rod is located in the three-way pipe, the lower end of the top rod is connected with the extrusion head, the upper end of the top rod is connected with the cylinder body, the top rod is controlled by external driving to drive the extrusion head to move up and down, and the extrusion head and the filling nozzle are located on the same axis.

Further, discharge mechanism includes the spliced pole, and the spliced pole is fixed on the piston locating plate, and the top surface of spliced pole still parallel mount has ejection of compact locating plate, pierces through in the ejection of compact locating plate to be connected with the guide arm, and the lower extreme of guide arm is fixed on the graduated flask locating plate, and the upper end is connected with ejection of compact locating plate, still installs ejection of compact cylinder on the ejection of compact locating plate, ejection of compact cylinder's pushing away material end and ejection of compact locating plate rigid coupling.

Further, the switch mechanism comprises a fixed plate, a cylinder seat, a switch cylinder, a rotating arm and a rotating pin, wherein the fixed plate is arranged on the bottom surface of the material box and is close to the lower end of the material discharging pipe, the cylinder seat is outwards arranged on the fixed plate, the switch cylinder is hinged to the cylinder seat, the rotating arm is hinged to the shaft end of the switch cylinder, a slotted hole is further formed in the rotating arm, and the rotating pin penetrates through the slotted hole and is fixedly connected with a switch of the three-way valve.

Further, the outer wall of the quantitative barrel is made of transparent materials, and a graduated scale is further arranged on the outer wall.

The beneficial effects of the utility model are as follows: the automatic packaging machine has the advantages that the automatic packaging machine is connected with the quantitative barrel and the filling nozzle through the discharging pipes, multi-station simultaneous packaging is achieved, packaging quantity can be accurately controlled through the quantitative barrel, packaging effect is improved, the three-way valve is controlled to be opened and closed through the switching mechanism in the packaging process, automatic discharging, material drawing and packaging processes can be achieved through the matching discharging mechanism, cost is saved through no manual operation, and the automatic packaging machine is accurate and convenient to use.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a front view of the present utility model.

Fig. 3 is a left side view of the present utility model.

Fig. 4 is a cross-sectional view A-A of fig. 3.

In the figure: 1. a feed box; 2. a connecting plate; 3. a mounting plate; 4. a discharge pipe; 5. a right-angle elbow; 6. a three-way pipe; 7. a fixed block; 8. a pushing mechanism; 9. a filling nozzle; 10. a three-way valve; 11. a quantitative barrel; 12. measuring cylinder locating plate; 13. a piston head; 14. a piston rod; 15. a piston positioning plate; 16. a discharging mechanism; 17. a switching mechanism; 18. a cylinder block; 19. fixing the column; 20. a top rod; 21. extruding a material head; 22. a connecting column; 23. a discharging positioning plate; 24. a guide rod; 25. a discharging cylinder; 26. a fixing plate; 27. a cylinder block; 28. switching on and off the cylinder; 29. a rotating arm; 30. and (5) rotating the pin.

Description of the embodiments

The utility model is further illustrated by the following description in conjunction with the accompanying drawings and specific embodiments.

Examples: as shown in the figure, the cooling agent split charging device comprises a feed box 1, a connecting plate 2 is arranged on one side of the feed box 1, a mounting plate 3 is fixedly connected to the other side of the feed box 1, a group of discharging pipes 4 are further arranged on the bottom surface of the feed box 1, the outer ends of the discharging pipes 4 are connected with a right-angle bent pipe 5, the outer ends of the right-angle bent pipes 5 are connected with a three-way pipe 6, a fixed block 7 and a pushing mechanism 8 positioned on the fixed block 7 are arranged at the upper end of the three-way pipe 6, a filling nozzle 9 is arranged at the lower end of the three-way pipe 6, a three-way valve 10 is further connected between the right-angle bent pipe 5 and the three-way pipe 6, a quantitative barrel 11 is further arranged at the upper end of the three-way valve 10, a piston rod 13 and a piston rod 14 are further connected to the mounting plate 3 through a measuring cylinder positioning plate 12, the piston rod 13 is slidingly connected to the quantitative barrel 11, the piston rod 14 is fixedly connected to the mounting plate 3 through a piston positioning plate 15, a discharging mechanism 16 driving the piston rod 14 is further arranged on the mounting plate 3, a switching mechanism 17 connected with the feed box 1 is further arranged on one side of the three-way valve 10, a filling nozzle 9 is arranged at the lower end of the three-way valve 6, a dosing agent can be automatically controlled by the switching mechanism 17 or the three-way valve 10 to be automatically controlled to be filled into the three-way pipe 6 through the upper end of the three-way pipe 6, the quantitative barrel through the quantitative barrel 11 or the quantitative barrel 11 when the quantitative valve is automatically, the quantitative barrel 11 is automatically enters the quantitative barrel 11, the quantitative cooling agent through the quantitative barrel 3, the quantitative barrel can be automatically enters into the quantitative barrel 3, the quantitative valve can be automatically, and the quantitative cooling agent can be automatically enters into the quantitative pouring machine through the quantitative valve through the quantitative barrel 3 through the quantitative valve 3 and the quantitative valve through the quantitative valve 3 through the 3.

The pushing mechanism 8 comprises a cylinder body 18, a fixed column 19, a top rod 20 and a squeezing head 21, wherein the cylinder body 18 is fixedly connected to the fixed block 7 through the fixed column 19, the top rod 20 is positioned in the three-way pipe 6, the lower end of the top rod 20 is connected with the squeezing head 21, the upper end of the top rod 20 is connected with the cylinder body 18, the top rod 20 is controlled by external driving to drive the squeezing head 21 to move up and down, the squeezing head 21 and the filling nozzle 9 are positioned on the same axis, and the cylinder body 18 drives the top rod 20 and the squeezing head to move up and down so as to open or close the material filling nozzle 9, so that the material taking and discharging actions are controlled conveniently.

The discharging mechanism 16 comprises a connecting column 22, the connecting column 22 is fixed on the piston positioning plate 15, a discharging positioning plate 23 is arranged on the top surface of the connecting column 22 in parallel, a guide rod 24 is connected in the discharging positioning plate 23 in a penetrating manner, the lower end of the guide rod 24 is fixed on the measuring cylinder positioning plate 12, the upper end of the guide rod is connected with the discharging positioning plate 23, a discharging cylinder 25 is also arranged on the discharging positioning plate 23, the pushing end of the discharging cylinder 25 is fixedly connected with the discharging positioning plate 23, the discharging cylinder 25 is controlled to extend or retract through external driving, namely, the piston head 13 is controlled to descend or ascend in the quantitative barrel 11, and finally, the quantitative barrel 11 is in a material drawing or pushing state, so that the material drawing amount during split charging can be accurately controlled.

The switch mechanism 17 comprises a fixed plate 26, a cylinder seat 27, a switch cylinder 28, a rotating arm 29 and a rotating pin 30, wherein the fixed plate 26 is arranged on the bottom surface of the feed box 1, the lower end close to the discharge pipe 4, the cylinder seat 27 is outwards arranged on the fixed plate 26, the switch cylinder 28 is hinged on the cylinder seat 27, the rotating arm 29 is hinged at the shaft end of the switch cylinder 28, a slotted hole is further formed in the rotating arm 29, the rotating pin 30 passes through the slotted hole and is fixedly connected with a switch of the three-way valve 10, the switch cylinder 28 is controlled to work through external driving, the rotating arm 29 rotates along the rotating pin 30, and then the rotating pin 30 is driven to rotate to control the opening or closing of the three-way valve 10, so that manual switch actions are omitted.

The outer wall of ration bucket 11 adopts transparent material to make, and still is provided with the scale on the outer wall, is convenient for observe the material in the ration bucket 11 through transparent section of thick bamboo wall how much, can confirm whether the partial shipment volume at every turn is the same through the scale, improves the partial shipment effect.

According to the utility model, a plurality of discharging pipes are connected with the quantitative barrel and the filling nozzle, so that multi-station simultaneous split charging is realized, the split charging quantity can be accurately controlled through the quantitative barrel, the split charging effect is improved, the three-way valve is controlled to be opened and closed through the switching mechanism in the split charging process, the automatic discharging, material drawing and split charging processes can be realized by matching with the discharging mechanism, the cost is saved without manual operation, and the split charging is accurate and convenient to use.

The foregoing is merely illustrative of the present utility model and not restrictive, and other modifications and equivalents thereof may occur to those skilled in the art without departing from the spirit and scope of the present utility model.

Claims (5)

1. A cooling agent partial shipment device, its characterized in that: the automatic feeding device comprises a feed box, wherein a connecting plate is arranged on one side of the feed box, a mounting plate is fixedly connected to the other side of the feed box, a group of discharging pipes are further arranged on the bottom surface of the feed box, the outer ends of the discharging pipes are connected with right-angle bent pipes, the outer ends of the right-angle bent pipes are connected with three-way pipes, a fixing block and a pushing mechanism positioned on the fixing block are arranged at the upper ends of the three-way pipes, a filling nozzle is arranged at the lower ends of the three-way pipes, a three-way valve is further connected between the right-angle bent pipes and the three-way pipes, a quantitative barrel is further arranged at the upper end of the three-way valve, the quantitative barrel is fixed on the mounting plate through a measuring cylinder positioning plate, the upper end of the quantitative barrel is further connected with a piston head and a piston rod, the piston head is slidably connected in the quantitative barrel, the piston rod is fixed on the mounting plate through a piston positioning plate, the lower end of the piston rod is fixedly connected with the piston head, a discharging mechanism for driving the piston rod is further arranged on the mounting plate, and a switching mechanism connected with the feed box is further arranged on one side of the three-way valve.

2. The cooling agent sub-packaging device according to claim 1, wherein: the pushing mechanism comprises a cylinder body, a fixed column, a pushing rod and a squeezing head, the cylinder body is fixedly connected to the fixed block through the fixed column, the pushing rod is located in the three-way pipe, the lower end of the pushing rod is connected with the squeezing head, the upper end of the pushing rod is connected with the cylinder body, the pushing rod is driven by an external drive to drive the squeezing head to move up and down, and the squeezing head and the filling nozzle are located on the same axis.

3. The cooling agent sub-packaging device according to claim 1, wherein: the discharging mechanism comprises a connecting column, the connecting column is fixed on a piston positioning plate, the top surface of the connecting column is also provided with a discharging positioning plate in parallel, a guide rod is connected in the discharging positioning plate in a penetrating manner, the lower end of the guide rod is fixed on a measuring cylinder positioning plate, the upper end of the guide rod is connected with the discharging positioning plate, a discharging cylinder is further installed on the discharging positioning plate, and the pushing end of the discharging cylinder is fixedly connected with the discharging positioning plate.

4. The cooling agent sub-packaging device according to claim 1, wherein: the switching mechanism comprises a fixed plate, a cylinder seat, a switching cylinder, a rotating arm and a rotating pin, wherein the fixed plate is arranged on the bottom surface of the feed box and close to the lower end of the discharge pipe, the cylinder seat is outwards arranged on the fixed plate, the switching cylinder is hinged to the cylinder seat, the rotating arm is hinged to the shaft end of the switching cylinder, a slotted hole is further formed in the rotating arm, and the rotating pin penetrates through the slotted hole and is fixedly connected with a switch of the three-way valve.

5. The cooling agent sub-packaging device according to claim 1, wherein: the outer wall of the quantitative barrel is made of transparent materials, and a graduated scale is further arranged on the outer wall.