CN220589948U - Defoaming agent dosage control device - Google Patents

Abstract

The utility model discloses a defoaming agent dosage control device, which belongs to the field of defoaming agents and comprises a base, wherein a traversing mechanism is arranged in the middle of the upper end of the base, a feeding mechanism is arranged on the traversing mechanism, two quantitative assemblies and a stop assembly are arranged at the bottom of the feeding mechanism, and the bottom of the stop assembly extends to the lower part of the quantitative assemblies. According to the defoamer dosage control device, the quantitative assembly can be used for adjusting the internal accommodating design, so that the dosage of a single defoamer can be limited, and compared with a mode in a comparison document, the defoamer dosage control device is lower in energy consumption and more reliable in use because no electric equipment is adopted for control, and can alternately enable the two quantitative assemblies to perform discharging pouring and filling feeding respectively by moving the transverse moving plate left and right, and can be used alternately without spending excessive time waiting for re-feeding completion after finishing single discharging, so that the efficiency of the device in use is improved.

Description

Defoaming agent dosage control device

Technical Field

The utility model belongs to the field of defoamers, and particularly relates to a defoamer dosage control device.

Background

The application of the defoamer is very wide, such as food industry, paper industry, water treatment, oil extraction industry, printing and dyeing industry, paint industry, detergent industry, rubber latex industry, aerosol industry, daily chemical industry, medicine industry, dairy industry and the like.

The existing defoaming agent dosage control device (CN 217164321U) enables the installation block to drive the adding cylinder to carry out transverse movement adjustment by starting the driving motor, the height of the adding cylinder is adjusted by starting the electric push rod, the dosage is detected by the liquid level sensor, and the accuracy of agent adding is guaranteed. However, the device is used for controlling the dosage in a mode of a liquid level sensor, so that the energy consumption is increased in the actual use process, the detection effect on the current liquid level section is easily affected when the current liquid level is not stable or the surface of the liquid is provided with bubbles, the accuracy of adding the agent is further affected, and meanwhile, the consumption time is required to be spent for waiting for the device to finish dosage filling again after the single discharging of the single defoaming agent is finished, so that the use efficiency is affected to a certain extent.

Disclosure of Invention

Aiming at one or more of the defects or improvement demands of the prior art, the utility model provides a defoamer dosage control device, which has the advantages of high precision and high efficiency.

In order to achieve the above purpose, the utility model provides a defoamer dosage control device, which comprises a transverse moving mechanism arranged in the middle of the upper end of a base, wherein a feeding mechanism is arranged on the transverse moving mechanism, two quantitative assemblies and a stop assembly are arranged at the bottom of the feeding mechanism, and the bottom of the stop assembly extends to the lower part of the quantitative assemblies.

The sideslip mechanism includes the mounting bracket, and mounting bracket bottom fixed connection is in base upper end middle part, and the inside rotation of mounting bracket is connected with the threaded rod, and the threaded rod left end runs through the mounting bracket, and mounting bracket left end upper portion edge fixedly connected with motor, motor output pivot and threaded rod left end fixed connection, threaded rod middle part screw thread have cup jointed the movable block, sliding connection between movable block and the mounting bracket.

The feeding mechanism comprises a sliding frame, the back of the sliding frame is fixedly connected with the front of the moving block, the sliding frame is internally and slidably connected with a transverse moving plate, the right end of the sliding frame is fixedly connected with an electric push rod, an electric push rod pushing shaft penetrates through the right wall of the sliding frame, the electric push rod pushing shaft is fixedly connected with the right end of the transverse moving plate, the middle part of the upper end of the sliding frame is fixedly connected with a connector, the bottom of the connector is attached to the top of the transverse moving plate, and the connector is slidably connected with the transverse moving plate.

The quantitative assembly comprises an upper sleeve, the top of the upper sleeve is embedded in the bottom of the transverse moving plate, a lower sleeve is sleeved on the outer wall of the lower portion of the upper sleeve in a sliding manner, a piston sleeve is fixedly connected with the inner wall of the upper end of the lower sleeve and sleeved outside the lower sleeve, the piston sleeve is clung to the lower sleeve, the front of the upper sleeve is fixedly connected with a connecting rod, the lower end of the connecting rod extends to the front of the lower sleeve, a fixing screw rod is arranged on the front of the lower sleeve, the back of the fixing screw rod penetrates through the connecting rod and is inserted into the interior of the lower sleeve, the fixing screw rod is in threaded connection with the lower sleeve, a cover plate is arranged at the bottom of the lower sleeve, and the cover plate is movably connected with the side face of the lower sleeve through a hinged buckle.

The backstop subassembly includes the slide bar, slide bar fixed connection in slide frame lower extreme rear side edge department, and the slide bar is located the sleeve back, and slide bar lower part outer wall sliding sleeve has been cup jointed the sliding sleeve, and sliding sleeve bottom fixedly connected with guide board, guide board extend to left side cover board below and laminate mutually, and guide board left and right sides utensil is the downward sloping form, and the sliding sleeve back has the fastening screw, and the fastening screw runs through the sliding sleeve, and fastening screw supports tightly with the slide bar, fastening screw and sliding sleeve threaded connection.

The side of the connecting rod is provided with scales, the outer wall of the lower sleeve is fixedly connected with a pointer, and the pointer and the scales are positioned at opposite positions.

In general, the above technical solutions conceived by the present utility model have the beneficial effects compared with the prior art including:

(1) According to the defoamer dosage control device, the quantitative assembly can be used for adjusting the internal accommodating design, so that the dosage of the single defoamer can be limited, and compared with a mode in a comparison document, the dosage control device is lower in energy consumption and more reliable because no electrical equipment is used for control.

(2) According to the defoamer dosage control device, the transverse moving plate is moved left and right, the two quantitative assemblies can be used for respectively discharging, dumping and filling and feeding alternately, and the two quantitative assemblies are used alternately, so that the excessive time is not required to be spent for waiting for the completion of the re-feeding after the single discharging is completed, and the use efficiency of the device is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of a rear view of a feed mechanism according to the present utility model;

FIG. 3 is a schematic view of the structure of the quantitative assembly of the present utility model;

FIG. 4 is a schematic view of a stopper assembly according to the present utility model;

fig. 5 is an enlarged schematic view of the structure of fig. 3 a according to the present utility model.

Like reference numerals denote like technical features throughout the drawings, in particular: 1. a base; 2. a traversing mechanism; 21. a mounting frame; 22. a threaded rod; 23. a motor; 24. a moving block; 3. a feeding mechanism; 31. a carriage; 32. a transverse moving plate; 33. an electric push rod; 34. a connector; 4. a dosing assembly; 41. an upper sleeve; 42. a lower sleeve; 43. a piston sleeve; 44. a connecting rod; 45. a fixed screw; 46. a cover plate; 47. a hinged buckle; 5. a stop assembly; 51. a slide bar; 52. a sliding sleeve; 53. a guide plate; 54. fastening a screw; 6. a scale; 7. a pointer.

Detailed Description

The defoaming agent dosage control device is provided by figures 1-4, and comprises a base 1, wherein a transverse moving mechanism 2 is arranged in the middle of the upper end of the base 1, a feeding mechanism 3 is arranged on the transverse moving mechanism 2, two quantitative assemblies 4 and a stop assembly 5 are arranged at the bottom of the feeding mechanism 3, and the bottom of the stop assembly 5 extends to the lower part of the quantitative assembly 4.

Specifically, referring to fig. 1, the traversing mechanism 2 includes a mounting frame 21, the bottom of the mounting frame 21 is fixedly connected with the middle part of the upper end of the base 1, a threaded rod 22 is rotatably connected inside the mounting frame 21, the left end of the threaded rod 22 penetrates through the mounting frame 21, the edge of the upper part of the left end of the mounting frame 21 is fixedly connected with a motor 23, an output rotating shaft of the motor 23 is fixedly connected with the left end of the threaded rod 22, a moving block 24 is sleeved on the middle thread of the threaded rod 22, and the moving block 24 is in sliding connection with the mounting frame 21.

In this embodiment, since there is a certain deviation between the discharging positions of the two lower sleeves 42, the motor 23 can be turned on to drive the threaded rod 22 to rotate, so as to change the positions of the moving block 24 and the structures below by using the thrust of the threads, so that the currently discharged lower sleeve 42 is adjusted to be right above the reaction position.

Specifically, referring to fig. 2, the feeding mechanism 3 includes a sliding frame 31, the back of the sliding frame 31 is fixedly connected with the front of the moving block 24, a transverse moving plate 32 is slidably connected inside the sliding frame 31, the right end of the sliding frame 31 is fixedly connected with an electric push rod 33, a push shaft of the electric push rod 33 penetrates through the right wall of the sliding frame 31, the push shaft of the electric push rod 33 is fixedly connected with the right end of the transverse moving plate 32, a connector 34 is fixedly connected with the middle part of the upper end of the sliding frame 31, the bottom of the connector 34 is attached to the top of the transverse moving plate 32, the connector 34 is slidably connected with the transverse moving plate 32, and a sealing ring is arranged at the bottom of the connector 34 and can be used for sliding sealing between the connector 34 and the transverse moving plate 32.

Specifically, referring to fig. 3, the dosing assembly 4 includes an upper sleeve 41, the top of the upper sleeve 41 is embedded in the bottom of the traversing plate 32, a lower sleeve 42 is sleeved on the outer wall of the lower portion of the upper sleeve 41 in a sliding manner, a piston sleeve 43 is fixedly connected to the inner wall of the upper end of the lower sleeve 42, the piston sleeve 43 is sleeved outside the lower sleeve 42, the piston sleeve 43 is tightly attached to the lower sleeve 42, a connecting rod 44 is fixedly connected to the front of the upper sleeve 41, the lower end of the connecting rod 44 extends to the front of the lower sleeve 42, a fixing screw 45 is arranged on the front of the lower sleeve 42, the back of the fixing screw 45 penetrates through the connecting rod 44 and is inserted into the lower sleeve 42, the fixing screw 45 is in threaded connection with the lower sleeve 42, the fixing screw 45 is in sliding fit with the connecting rod 44, a cover plate 46 is arranged at the bottom of the lower sleeve 42, the cover plate 46 is movably connected with the side of the lower sleeve 42 through a hinge buckle 47, and sealing rings are arranged at the top of the cover plate 46 and the bottom of the lower sleeve 42, and can be used for sealing between the cover plate 46 and the lower sleeve 42.

In this embodiment, before use, the lower sleeve 42 is pulled to slide on the outer wall of the upper sleeve 41, so as to change the size of the accommodating space formed by the lower sleeve 42 and the upper sleeve 41, so as to adjust the required blanking amount according to different use requirements, thereby realizing the quantitative blanking effect, the piston sleeve 43 can be used for sealing between the lower sleeve 42 and the upper sleeve 41, after adjustment, the current positions of the lower sleeve 42 and the upper sleeve 41 can be fixed by screwing the fixing screw 45 to contact with the connecting rod 44 and friction force between the fixing screw and the connecting rod 44.

Specifically, referring to fig. 4, the stop assembly 5 includes a slide bar 51, the slide bar 51 is fixedly connected to the rear side edge of the lower end of the slide frame 31, the slide bar 51 is located at the back of the upper sleeve 41, a sliding sleeve 52 is sleeved on the outer wall of the lower portion of the slide bar 51 in a sliding manner, a guide plate 53 is fixedly connected to the bottom of the sliding sleeve 52, the guide plate 53 extends to the lower portion of the left side cover 46 and is attached to the left side cover, the left side and the right side of the guide plate 53 are inclined downwards, a fastening screw 54 is arranged at the back of the sliding sleeve 52, the fastening screw 54 penetrates through the sliding sleeve 52, the fastening screw 54 abuts against the slide bar 51, and the fastening screw 54 is in threaded connection with the sliding sleeve 52.

In this embodiment, when the lower sleeve 42 moves up and down, the sliding sleeve 52 can be pulled to slide outside the sliding rod 51, so as to adjust the usage height of the guide plate 53 according to the position of the cover plate 46, and after the adjustment, the fastening screw 54 can be screwed to contact with the sliding rod 51, so that the current position of the sliding sleeve 52 can be fixed by friction force between the fastening screw and the sliding rod.

Specifically, referring to fig. 5, a scale 6 is provided on a side surface of the connecting rod 44, and a pointer 7 is fixedly connected to an outer wall of the lower sleeve 42, where the pointer 7 and the scale 6 are located at opposite positions.

In this embodiment, when adjusting the position of the lower sleeve 42, the screw outside of the fixing screw 45 slides in the connecting rod 44 for limiting and guiding the lower sleeve 42 when sliding, and meanwhile, the staff can know the current area of the accommodating space through the pointed position of the pointer 7 on the scale 6.

According to the defoamer dosage control device, before the defoamer dosage control device is needed to be used, the connector 34 can be connected with an external defoamer conveying pipe, when the defoamer dosage control device is needed to be used, the external defoamer enters the upper sleeve 41 and the lower sleeve 42 on one side of the connector through the conveying pipe and the connector 34 to be collected, after the defoamer conveying pipe is fully filled, raw materials in the defoamer conveying pipe cannot enter the upper sleeve 41 again, then under the action of the electric push rod 33, the traversing plate 32 generates traversing and gradually seals the bottom of the connector 34, the residual defoamer cannot enter the upper sleeve 41 through the connector 34, meanwhile, the cover plate 46 gradually leaves contact with the surface of the guide plate 53, and is gradually opened and opposite to the upper sleeve 41 on the other side, so that the pre-feeding is finished in the other upper sleeve 41, when the cover plate 46 leaves the surface of the guide plate 53, the cover plate 46 is free of any shielding matter, the cover plate 46 rotates around the hinging buckle 47 as a circle center under the action of gravity, the bottom of the lower sleeve 42 is opened, the process of finishing the defoamer is finished, the pouring process, the quantitative assembly 4 can be circulated, the internal setting can be adjusted, the single-time can be designed, the single-phase device can be used for the two times, the two-time can be controlled, the two-time can be more finished, the two-time can be compared with the two-time device can be used to finish the intermittent, and the two-time device can be more finished, and the more than the quantitative device can be more by the alternative and the more and compared, and the 4 can be more required to be compared and the compared with the device.

Claims (6)

1. The utility model provides a defoaming agent quantity controlling means, includes base (1), its characterized in that, base (1) upper end middle part is provided with sideslip mechanism (2), is provided with feeding mechanism (3) on sideslip mechanism (2), and feeding mechanism (3) bottom is provided with two ration subassemblies (4) and backstop subassembly (5), and backstop subassembly (5) bottom extends to ration subassembly (4) below.

2. The defoamer dosage control device according to claim 1, characterized in that the traversing mechanism (2) comprises a mounting frame (21), the bottom of the mounting frame (21) is fixedly connected with the middle part of the upper end of the base (1), a threaded rod (22) is rotatably connected inside the mounting frame (21), the left end of the threaded rod (22) penetrates through the mounting frame (21), a motor (23) is fixedly connected to the edge of the upper part of the left end of the mounting frame (21), an output rotating shaft of the motor (23) is fixedly connected with the left end of the threaded rod (22), a movable block (24) is sleeved on the middle thread of the threaded rod (22), and the movable block (24) is in sliding connection with the mounting frame (21).

3. The defoamer usage control device according to claim 2, characterized in that the feeding mechanism (3) comprises a sliding frame (31), the back of the sliding frame (31) is fixedly connected to the front of the moving block (24), a transverse moving plate (32) is slidingly connected to the inside of the sliding frame (31), an electric push rod (33) is fixedly connected to the right end of the sliding frame (31), a push shaft of the electric push rod (33) penetrates through the right wall of the sliding frame (31), the push shaft of the electric push rod (33) is fixedly connected to the right end of the transverse moving plate (32), a connector (34) is fixedly connected to the middle part of the upper end of the sliding frame (31), the bottom of the connector (34) is attached to the top of the transverse moving plate (32), and the connector (34) is slidingly connected to the transverse moving plate (32).

4. The defoamer dosage control device according to claim 3, wherein the dosing assembly (4) comprises an upper sleeve (41), the top of the upper sleeve (41) is embedded into the bottom of the transverse moving plate (32), a lower sleeve (42) is sleeved on the outer wall of the lower part of the upper sleeve (41) in a sliding manner, a piston sleeve (43) is fixedly connected to the inner wall of the upper end of the lower sleeve (42), the piston sleeve (43) is sleeved outside the lower sleeve (42), the piston sleeve (43) is tightly attached to the lower sleeve (42), a connecting rod (44) is fixedly connected to the front of the upper sleeve (41), the lower end of the connecting rod (44) extends to the front of the lower sleeve (42), a fixing screw (45) is arranged on the front of the lower sleeve (42), the back of the fixing screw (45) penetrates through the connecting rod (44) and is inserted into the inside of the lower sleeve (42), the fixing screw (45) is in threaded connection with the lower sleeve (42), the fixing screw (45) is in sliding fit with the connecting rod (44), a cover plate (46) is arranged at the bottom of the lower sleeve (42), the cover plate (46), and the cover plate (46) is movably connected with the side of the lower sleeve (42) through a hinge buckle (47).

5. A defoamer usage control device according to claim 3, characterized in that the stopper assembly (5) comprises a slide bar (51), the slide bar (51) is fixedly connected to the rear side edge of the lower end of the slide frame (31), the slide bar (51) is positioned at the back of the upper sleeve (41), the outer wall of the lower part of the slide bar (51) is in sliding connection with a sliding sleeve (52), the bottom of the sliding sleeve (52) is fixedly connected with a guide plate (53), the guide plate (53) extends to the lower part of the left side cover (46) and is attached to the lower part, the left side and the right side of the guide plate (53) are in downward inclined shapes, the back of the sliding sleeve (52) is provided with a fastening screw (54), the fastening screw (54) penetrates through the sliding sleeve (52), the fastening screw (54) is abutted to the slide bar (51), and the fastening screw (54) is in threaded connection with the sliding sleeve (52).

6. The defoamer usage control device according to claim 4, characterized in that the side of the connecting rod (44) is provided with a scale (6), the outer wall of the lower sleeve (42) is fixedly connected with a pointer (7), and the pointer (7) and the scale (6) are positioned at opposite positions.