CN217171020U - Square can solvent partial shipment device - Google Patents

Abstract

The utility model discloses a square tank solvent split charging device, relating to the split charging technical field, comprising a discharge valve, a liquid feeding pipe, a discharge pipe, a first transfusion pipe, a second transfusion pipe and a third transfusion pipe; a first port and a second port are respectively formed in two sides of the second infusion tube, and a third port is formed in the middle of the second infusion tube upwards; the port of the one end of first transfer line and the first port intercommunication of second transfer line, the second port of second transfer line and the port of the one end of third transfer line communicate, the port of the one end of liquid feeding pipe pass through the liquid feeding valve with the third port intercommunication of second transfer line, the blowing pipe pass through the baiting valve with the port intercommunication of the other end of third transfer line solves among the prior art partial shipment inefficiency, and the risk is big, the problem of uncomfortable formula jar.

Description

Square can solvent partial shipment device

Technical Field

The utility model relates to a solvent partial shipment technical field, more specifically relates to a square can solvent partial shipment device.

Background

In the pharmaceutical production, the square tank, also called a ton barrel, is most commonly used and is mainly used for containing and transferring the solvent, so that the efficiency is improved; although the amount of the solvent in the square can reach 1000kg at one time, the amount of the solvent which is most commonly used in the production/cleaning process is below 50kg, and then the operation of dispensing the solvent in the square can is needed.

The first method is that a square tank is pulled to a production site, is extracted by a reaction kettle or a metering tank and is discharged for use according to the required amount, and the method has low efficiency and occupies equipment; the second is to use the pneumatic pump to take over the square pot, although the efficiency is high, but need two persons to cooperate, if there is some careless leakage risk; the third is to directly use 5L measuring cup to open the bottom valve to discharge, but because the bottom valve is at the bottom of the square tank, only 2-3L can be discharged each time, and the efficiency is low. The prior patent publication No. CN 205590271U, patent publication No. 2016.09.21, comprises a liquid medicine cylinder, wherein the upper end of the liquid medicine cylinder is provided with a liquid inlet pipe, and the lower end of the liquid medicine cylinder is provided with a liquid outlet pipe; however, the prior art does not design the square can, and the device is not suitable for the subpackage of the square can solvent, and therefore how to design the subpackage device, the problems of low subpackage efficiency, large risk and no adaptation of the square can in the prior art are solved, and the device is suitable for the subpackage of the square can solvent and is a problem which needs to be solved urgently in the field.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a partial shipment inefficiency among the solution prior art, the risk is big, and the problem of uncomfortable formula jar provides a square can solvent partial shipment device, and it has low cost, simple easy-to-use characteristics.

In order to realize the above, the utility model discloses the purpose, the technical scheme of adoption as follows:

a square tank solvent split charging device comprises a discharge valve, a liquid feeding pipe, a discharge pipe, a first infusion pipe, a second infusion pipe and a third infusion pipe; a first port and a second port are respectively formed on two sides of the second infusion tube, and a third port is formed in the middle of the second infusion tube upwards; the port of one end of the first infusion tube is communicated with the first port of the second infusion tube, the second port of the second infusion tube is communicated with the port of one end of the third infusion tube, the port of one end of the liquid feeding tube is communicated with the third port of the second infusion tube through a liquid feeding valve, and the discharging tube is communicated with the port of the other end of the third infusion tube through a discharging valve.

Preferably, still include the infusate valve, the port of the one end of infusate valve and the port of the one end of first transfer line, the port of the other end of infusate valve and the first port intercommunication of second transfer line.

Furthermore, the first infusion tube and the second infusion tube as well as the second infusion tube and the third infusion tube are spliced by 90-degree right-angle joints.

Furthermore, the device also comprises a square tank; the other end of the first infusion tube extends into the cavity of the square tank.

Furthermore, the square tank is provided with an infusion port, and a square tank cover is arranged on the infusion port; the other end of the first infusion tube passes through the square tank cover and extends into the cavity of the square tank.

Furthermore, the other end of the first infusion tube is provided with a bevel-cut opening.

Furthermore, the second infusion tube is further provided with a support frame which is positioned on the second infusion tube and is close to the second port and used for supporting the tube body structure of the whole device.

Still further, still include the fixed bolster, the fixed bolster include grid railing and bottom rack, the grid railing set up in bottom rack top, with bottom rack fixed connection, the square can set up on the bottom rack, be surrounded by the grid railing.

Furthermore, the second infusion tube is provided with a support frame which is positioned at one end where the second infusion tube is communicated with the third infusion tube and used for supporting the whole device tube body structure by supporting the grid railing.

Furthermore, the upper end and the lower end of the support frame are respectively provided with an opening structure, the second infusion tube is clamped by the opening structure at the upper part, and the upper edge of the grid railing is clamped by the opening structure at the lower part, so that the fixed support and the split charging device are fixedly connected.

The utility model has the advantages as follows:

the utility model discloses an insert first transfer line and treat among the partial shipment solvent to close the baiting valve, open the liquid feeding valve and add the solvent and be full of first transfer line, second transfer line, third transfer line, and come to treat through opening the baiting valve that the partial shipment solvent is in proper order by first transfer line, second transfer line, third transfer line to the blowing pipe blowing of blowing through the siphon principle, solved among the prior art partial shipment inefficiency from this, the risk is big, the problem of uncomfortable formula jar.

Drawings

FIG. 1 is a schematic plan view of the solvent split charging device of the present invention, a square tank and a fixing bracket.

The device comprises a discharge valve 1, a liquid feeding valve 2, a liquid feeding pipe 3, a discharge pipe 4, a first liquid conveying pipe 5, a second liquid conveying pipe 6, a third liquid conveying pipe 7, an infusion valve 8, a square tank 9, a square tank cover 10, a support frame 11, a grid railing 12 and a bottom rack 13.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Example 1

As shown in fig. 1, a square tank solvent split charging device comprises a discharge valve 1, a liquid charging valve 2, a liquid charging pipe 3, a discharge pipe 4, a first liquid conveying pipe 5, a second liquid conveying pipe 6 and a third liquid conveying pipe 7; a first port and a second port are respectively arranged at two sides of the second infusion tube 6, and a third port is upwards arranged in the middle of the second infusion tube 6; the port of the one end of first transfer line 5 and the port intercommunication of the first end of second transfer line 6, the second port of second transfer line 6 and the port intercommunication of the one end of third transfer line 7, the port of the one end of filling tube 3 pass through filling valve 2 with the third port intercommunication of second transfer line 6, discharge pipe 4 through baiting valve 1 with the port intercommunication of the other end of third transfer line 7, first transfer line 5, second transfer line 6, third transfer line 7 are blue pp pipe in this embodiment.

Example 2

As shown in fig. 1, a square tank solvent split charging device comprises a discharge valve 1, a liquid charging valve 2, a liquid charging pipe 3, a discharge pipe 4, a first liquid conveying pipe 5, a second liquid conveying pipe 6 and a third liquid conveying pipe 7; a first port and a second port are respectively arranged at two sides of the second infusion tube 6, and a third port is upwards arranged in the middle of the second infusion tube 6; the port of the one end of first transfer line 5 and the port intercommunication of the first end of second transfer line 6, the second port of second transfer line 6 and the port intercommunication of the one end of third transfer line 7, the port of the one end of filling tube 3 pass through filling valve 2 with the third port intercommunication of second transfer line 6, baiting pipe 4 pass through baiting valve 1 with the port intercommunication of the other end of third transfer line 7, first transfer line 5, second transfer line 6, third transfer line 7 are blue pp pipe in this embodiment.

In a specific embodiment, the infusion device further comprises an infusion valve 8, a port at one end of the infusion valve 8 is communicated with a port at one end of the first infusion tube 5, a port at the other end of the infusion valve 8 is communicated with a first port of the second infusion tube 6, and the infusion valve 8 is made of red plastic material in the embodiment.

Example 3

As shown in fig. 1, a square tank solvent split charging device comprises a discharge valve 1, a liquid charging valve 2, a liquid charging pipe 3, a discharge pipe 4, a first liquid conveying pipe 5, a second liquid conveying pipe 6 and a third liquid conveying pipe 7; a first port and a second port are respectively arranged at two sides of the second infusion tube 6, and a third port is upwards arranged in the middle of the second infusion tube 6; the port of the one end of first transfer line 5 and the port intercommunication of the first end of second transfer line 6, the second port of second transfer line 6 and the port intercommunication of the one end of third transfer line 7, the port of the one end of filling tube 3 pass through filling valve 2 with the third port intercommunication of second transfer line 6, discharge pipe 4 through baiting valve 1 with the port intercommunication of the other end of third transfer line 7, first transfer line 5, second transfer line 6, third transfer line 7 are blue pp pipe in this embodiment.

In a specific embodiment, the infusion device further comprises an infusion valve 8, a port at one end of the infusion valve 8 is communicated with a port at one end of the first infusion tube 5, a port at the other end of the infusion valve 8 is communicated with a first port of the second infusion tube 6, and the infusion valve 8 is made of red plastic material in the embodiment.

In a specific embodiment, the first infusion tube 5 and the second infusion tube 6, and the second infusion tube 6 and the third infusion tube 7 are spliced by 90-degree right-angle joints, and the right-angle joints are rigid plastic joints in the embodiment.

Example 4

As shown in fig. 1, a square tank solvent split charging device comprises a discharge valve 1, a liquid charging valve 2, a liquid charging pipe 3, a discharge pipe 4, a first liquid conveying pipe 5, a second liquid conveying pipe 6 and a third liquid conveying pipe 7; a first port and a second port are respectively arranged at two sides of the second infusion tube 6, and a third port is upwards arranged in the middle of the second infusion tube 6; the port of the one end of first transfer line 5 and the port intercommunication of the first end of second transfer line 6, the second port of second transfer line 6 and the port intercommunication of the one end of third transfer line 7, the port of the one end of filling tube 3 pass through filling valve 2 with the third port intercommunication of second transfer line 6, discharge pipe 4 through baiting valve 1 with the port intercommunication of the other end of third transfer line 7, first transfer line 5, second transfer line 6, third transfer line 7 are blue pp pipe in this embodiment.

In a specific embodiment, the infusion device further comprises an infusion valve 8, a port at one end of the infusion valve 8 is communicated with a port at one end of the first infusion tube 5, a port at the other end of the infusion valve 8 is communicated with a first port of the second infusion tube 6, and the infusion valve 8 is made of red plastic material in the embodiment.

In a specific embodiment, the first infusion tube 5 and the second infusion tube 6, and the second infusion tube 6 and the third infusion tube 7 are spliced by adopting 90-degree right-angle joints, and in this embodiment, the right-angle joints are rigid plastic joints.

In a particular embodiment, a square can 9 is also included; the other end of the first infusion tube 5 extends into the cavity of the square pot 9. The square tank 9 in this embodiment is a rectangular rigid plastic container, and the height thereof is greater than the length of the first infusion tube 5.

Example 5

As shown in fig. 1, a square tank solvent split charging device comprises a discharge valve 1, a liquid charging valve 2, a liquid charging pipe 3, a discharge pipe 4, a first liquid conveying pipe 5, a second liquid conveying pipe 6 and a third liquid conveying pipe 7; a first port and a second port are respectively arranged at two sides of the second infusion tube 6, and a third port is upwards arranged in the middle of the second infusion tube 6; the port of the one end of first transfer line 5 and the port intercommunication of the first end of second transfer line 6, the second port of second transfer line 6 and the port intercommunication of the one end of third transfer line 7, the port of the one end of filling tube 3 pass through filling valve 2 with the third port intercommunication of second transfer line 6, discharge pipe 4 through baiting valve 1 with the port intercommunication of the other end of third transfer line 7, first transfer line 5, second transfer line 6, third transfer line 7 are blue pp pipe in this embodiment.

In a specific embodiment, the infusion device further comprises an infusion valve 8, a port at one end of the infusion valve 8 is communicated with a port at one end of the first infusion tube 5, a port at the other end of the infusion valve 8 is communicated with a first port of the second infusion tube 6, and the infusion valve 8 is made of red plastic material in the embodiment.

In a specific embodiment, the first infusion tube 5 and the second infusion tube 6, and the second infusion tube 6 and the third infusion tube 7 are spliced by 90-degree right-angle joints, and the right-angle joints are rigid plastic joints in the embodiment.

In a particular embodiment, a square can 9 is also included; the other end of the first infusion tube 5 extends into the cavity of the square pot 9. The square tank 9 in this embodiment is a rectangular rigid plastic container, and the height thereof is greater than the length of the first infusion tube 5.

In one embodiment, the square tank 9 is provided with an infusion port, and a square tank cover 10 is arranged on the infusion port; the other end of the first infusion tube 5 penetrates through a square tank cover 10 and extends into the cavity of the square tank 9, and the square tank cover 10 is a pink hard plastic threaded cover and is fixedly connected with the square tank 9 in a screwing mode.

In one embodiment, the other end of the first infusion tube 5 is provided with a beveled opening, and the opening is a 30-degree beveled opening.

In a specific embodiment, a support frame 11 is further disposed on the second infusion tube 6, and is located at one end of the second infusion tube 6, which is communicated with the third infusion tube 7, for supporting the tube structure of the whole device, and the support frame 11 is made of white hard plastic material.

In a specific embodiment, the device further comprises a fixing bracket, the fixing bracket comprises a grid rail 12 and a bottom rack 12, the grid rail 12 is arranged above the bottom rack 12 and fixedly connected with the bottom rack 12, the square tank 9 is arranged on the bottom rack 12 and is surrounded by the grid rail 12, and the grid rail 12 and the bottom rack 12 are made of stainless steel.

In one embodiment, the second infusion tube 6 is further provided with a support frame 11, which is located on the second infusion tube 6 near the second port and is used for supporting the whole device tube structure by being supported on the grid railing 12.

In one embodiment, the upper and lower ends of the supporting frame 11 are respectively provided with an opening structure, the upper opening structure clamps the second infusion tube 6, and the lower opening structure clamps the upper edge of the grid rail 12, so as to fixedly connect the supporting frame 11 and the dispensing device.

In the embodiment, during split charging, an upper end cover of a square tank 9 is opened, a first liquid conveying pipe 5 of the square tank split charging device extends into the square tank split charging device from a tank opening, a second liquid conveying pipe 6 and a third liquid conveying pipe 7 are arranged outside the tank, then a liquid conveying valve 8 and a discharging valve 1 are closed, and a liquid feeding valve 2 is opened; 2-3L of solvent is put into the square tank 9 by a measuring cup, and the solvent is slowly poured into the square tank from a liquid feeding port at the upper end of the liquid feeding valve 2 until the liquid in the tube is close to the liquid feeding port; opening the infusion valve 8, continuously pouring the solvent from the liquid filling port until the liquid in the tube is close to the overflow liquid filling port, and closing the liquid filling valve 2 (at the moment, the device pipeline is filled with the solvent to be subpackaged); directly opening the discharge valve 1 by adopting a siphon principle, discharging the solvent in the square tank 9 according to actual needs, closing the discharge valve 1, and completing split charging; therefore, the problems of low subpackaging efficiency, high risk and discomfort of the formula tank in the prior art are solved.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. The utility model provides a square can solvent partial shipment device which characterized in that: comprises a discharge valve (1), a liquid charging valve (2), a liquid charging pipe (3), a discharge pipe (4), a first infusion pipe (5), a second infusion pipe (6) and a third infusion pipe (7); a first port and a second port are respectively formed on two sides of the second infusion tube (6), and a third port is formed in the middle of the second infusion tube (6) upwards; the port of one end of the first infusion tube (5) is communicated with the first port of the second infusion tube (6), the second port of the second infusion tube (6) is communicated with the port of one end of the third infusion tube (7), the port of one end of the liquid adding tube (3) is communicated with the third port of the second infusion tube (6) through the liquid adding valve (2), and the discharging tube (4) is communicated with the port of the other end of the third infusion tube (7) through the discharging valve (1).

2. The square can solvent dispensing device of claim 1, wherein: still include transfusion valve (8), the port of the one end of transfusion valve (8) and the port intercommunication of the one end of first transfer line (5), the port of the other end of transfusion valve (8) and the first port intercommunication of second transfer line (6).

3. The square can solvent dispensing device of claim 2, wherein: the first infusion tube (5) is spliced with the second infusion tube (6), the second infusion tube (6) is spliced with the third infusion tube (7) by 90-degree right-angle joints.

4. The square can solvent dispensing apparatus of claim 3, wherein: also comprises a square tank (9); the other end of the first infusion tube (5) extends into the cavity of the square tank (9).

5. The square can solvent dispensing device of claim 4, wherein: the square tank (9) is provided with an infusion port, and a square tank cover (10) is arranged on the infusion port; the other end of the first infusion tube (5) penetrates through the square tank cover (10) and extends into the cavity of the square tank (9).

6. The square can solvent dispensing apparatus of claim 5, wherein: the other end of the first infusion tube (5) is provided with an oblique cut opening.

7. The square can solvent split charging device according to claim 6, characterized in that: the second infusion tube (6) is also provided with a support frame (11), which is positioned on the second infusion tube (6) and close to the second port and is used for supporting the tube body structure of the whole device.

8. The square can solvent dispensing apparatus of claim 7, wherein: still include the fixed bolster, the fixed bolster include grid railing (12) and bottom rack (13), grid railing (12) set up in bottom rack (13) top, with bottom rack (13) fixed connection, square tank (9) set up on bottom rack (13), by grid railing (12) surround.

9. The square can solvent dispensing apparatus of claim 8, wherein: the support frame is positioned at one end where the second infusion tube (6) is communicated with the third infusion tube (7) and is used for supporting the whole device tube body structure by supporting the grid railing (12).

10. The square can solvent dispensing apparatus of claim 9, wherein: the upper end and the lower end of the support frame (11) are respectively provided with an opening structure, the opening structure at the upper part clamps the second infusion tube (6), and the opening structure at the lower part clamps the upper edge of the grid railing (12), so that the fixed support and the split charging device are fixedly connected.

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