CN219083698U - Water glass quantitative feeding device - Google Patents

Abstract

The utility model discloses a water glass quantitative feeding device, which comprises a tank body; the bottom end of the tank body is fixedly connected with a booster pump, the bottom end of the booster pump is fixedly connected with a hose, one end of the hose, which is far away from the booster pump, is fixedly connected with a quantitative assembly, and the bottom end of the quantitative assembly is provided with a quantitative cylinder; the quantitative assembly comprises a movable pipe, the top end of the movable pipe is fixedly connected with a hose, the bottom end of the movable pipe is fixedly connected with a piston block, and the piston block is in sliding connection with the inner wall of the quantitative cylinder.

Description

Water glass quantitative feeding device

Technical Field

The utility model relates to the technical field of fused brick production, in particular to a water glass quantitative feeding device.

Background

The sodium silicate is in a sodium silicate solution state, so that the sodium silicate is mostly called water glass in the south and the sodium silicate is mostly called sodium silicate in the north; sodium silicate is colorless, slightly colored transparent or semitransparent viscous liquid in a system with water as a dispersing agent; the solid sodium silicate is a colorless, slightly colored transparent or semitransparent glass block; in the production process of the electric melting brick, quantitative water glass is required to be added into an electric arc furnace, so that the production quality of the electric melting brick is improved;

the technical scheme disclosed in the utility model patent document with the publication number of CN215139683U and the name of a continuous automatic water glass feeding device comprises a base, a support column, a top plate, a lifting device, a lifting plate, a fixed plate, a sliding rod, a rotating platform, a rotating motor, a rotating plate, an arc-shaped sliding rail, a fixed bracket, a connecting pipe, a lifting sliding rail and a pipeline bracket, wherein the base is connected with the support column; one end of the support column far away from the base is connected with the top plate#; the side surface of the support column is connected with the fixing plate; the fixed plate is provided with a threaded rod which is in transmission connection with the lifting device; the lifting device is connected with the fixed plate; the lifting plate is connected with the side surface of the support column in a sliding way; the lifting plate is provided with internal threads and is in threaded connection with the threaded rod; the two ends of the lifting plate are connected with the sliding rod; the sliding rod is connected with the top plate in a sliding way; the rotating plate is connected with the fixed bracket; the fixed support is connected with the connecting pipe, the structure is simple, the operation is simple and convenient, the feeding efficiency can be effectively improved, and the arc-shaped sliding rail and the rotating plate can be combined to rotate on a certain angle, so that the carrying times are reduced.

The defects of the prior art including the patent are that in the processing process of the fused brick, the water glass is weighed in a pipeline extraction mode, but when the filled quantitative cylinder is unloaded, the residual water glass in the extracted pipeline flows into the quantitative cylinder, so that the mixing proportion of the water glass in the quantitative cylinder is not accurate enough, and the product quality is affected.

Disclosure of Invention

The utility model aims to provide a water glass quantitative feeding device, which is characterized in that a piston block fixedly connected with the bottom end of a movable pipe in a quantitative assembly moves back and forth along the axial direction of a quantitative cylinder, so that the position of the movable pipe in the quantitative cylinder can be regulated more conveniently, the quantitative conveying of water glass is realized, the proportion required by water glass mixing can be effectively ensured, the quality of a sand mould is ensured, and the quality of a casting is finally ensured.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: a water glass quantitative feeding device comprises a tank body;

the quantitative tank is characterized in that a booster pump is fixedly connected to the bottom end of the tank body, a hose is fixedly connected to the bottom end of the booster pump, a quantitative assembly is fixedly connected to one end, away from the booster pump, of the hose, and a quantitative cylinder is arranged at the bottom end of the quantitative assembly;

the quantitative assembly comprises a movable pipe, the top end of the movable pipe is fixedly connected with a hose, the bottom end of the movable pipe is fixedly connected with a piston block, and the piston block is in sliding connection with the inner wall of the quantitative cylinder;

as a further description of the above technical solution:

and a sealing ring is sleeved on the outer side of the piston block, and the other side of the sealing ring is attached to the inner wall of the quantitative cylinder.

As a further description of the above technical solution:

the piston block is characterized in that the upper end of the piston block is fixedly connected with a pressure relief valve, an air permeable groove is formed in the inner side of the pressure relief valve, and an air permeable layer is arranged in the air permeable groove.

As a further description of the above technical solution:

the tank body one side fixedly connected with mount, the mount bottom is provided with adjusting part, and adjusting part one side is provided with the ration subassembly.

As a further description of the above technical solution:

the adjusting component comprises a fixed seat, one side of the fixed seat is fixedly connected with a fixed ring, and a quantitative cylinder is sleeved on the inner side of the fixed ring.

As a further description of the above technical solution:

the fixed seat bottom fixedly connected with driving motor, the driving motor top is provided with the screw thread lead screw, screw thread lead screw upper end threaded connection has the xarm, and xarm passes through fixed plate and movable tube fixed connection.

As a further description of the above technical solution:

the middle part of the cross arm is provided with a sliding groove, an orientation rod is arranged in the sliding groove in a sliding mode, and the orientation rod fixedly connects the fixing seat with the fixing frame.

As a further description of the above technical solution:

the quantitative barrel bottom is provided with row material pipe, and row material pipe one side fixedly connected with control valve.

As a further description of the above technical solution:

the device also comprises an opening and closing valve which is arranged in the movable pipe; the on-off valve comprises a movable cylinder, a guide cylinder is arranged at the top end of the movable cylinder and fixed on the inner wall of the movable cylinder, a supporting spring is arranged between the guide cylinder and the movable cylinder, a guide chute is arranged at the inner side of the guide cylinder, and the guide chute is communicated with the movable cylinder.

As a further description of the above technical solution:

the movable cylinder bottom is fixedly connected with a material blocking block, a material discharging groove is formed in the inner side of the material blocking block, and the material discharging groove is communicated with the movable cylinder and the quantitative cylinder.

The utility model provides a water glass quantitative feeding device, which has the following beneficial effects:

1. according to the utility model, the water glass material top surface of the quantitative cylinder supports the baffle block to move upwards, the pressure in the pipeline connected with the booster pump is larger than a preset value, so that the booster pump stops working, and the baffle block fixedly connected with the bottom end of the movable cylinder is driven to close the discharge hole at the bottom end of the movable pipe under the elastic driving of the support spring fixed on the guide cylinder, so that the phenomenon that the mixing proportion of water glass in the quantitative cylinder is inaccurate due to the fact that the residual water glass material in the pipeline flows into the quantitative cylinder is avoided, and the product quality is influenced.

2. According to the utility model, the sealing ring fixedly connected through the piston block is attached to the inner wall of the quantitative cylinder, when the piston block reciprocates upwards along the axial direction of the quantitative cylinder, compressed gas in the quantitative cylinder is discharged from the pressure release valve, so that the air pressure compression in the quantitative cylinder is avoided, the compressed gas is discharged from the ventilation groove in the pressure release valve, the ventilation layer fixedly connected in the ventilation groove isolates the water glass, the water glass is prevented from overflowing along the ventilation groove, the proportion of the water glass when the water glass is mixed is prevented from being influenced due to less compressed gas, and the quality of castings is reduced.

3. According to the utility model, the threaded screw rod is driven to rotate by the driving motor fixedly connected with the bottom end of the fixed seat, the cross arm in threaded connection in the threaded screw rod axially reciprocates along the threaded screw rod, the movable pipe connected with the cross arm axially reciprocates in the quantitative cylinder, and the position of the piston block in the quantitative cylinder is changed, so that the water glass mixing ratio is conveniently adjusted.

Drawings

FIG. 1 is a schematic diagram of a quantitative water glass feeding device according to the present utility model;

FIG. 2 is a schematic diagram of the structure of the tank body in the present utility model;

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

FIG. 4 is a schematic view of the structure of the adjusting assembly of the present utility model;

FIG. 5 is a partial schematic view of the utility model at A in FIG. 3;

FIG. 6 is a schematic view of the opening and closing valve according to the present utility model

Legend description:

1. a tank body; 2. a booster pump; 3. a hose; 4. a dosing assembly; 41. a movable tube; 42. a piston block; 43. a seal ring; 44. a pressure release valve; 45. a ventilation groove; 46. a ventilation layer; 47. opening and closing the valve; 471. a movable cylinder; 472. a material blocking block; 473. a discharge chute; 474. a guide cylinder; 475. a guide groove; 476. a support spring; 477. a limiting ring; 5. a quantitative cylinder; 6. a control valve; 7. a fixing frame; 8. an adjustment assembly; 81. a fixing seat; 82. a driving motor; 83. a threaded screw rod; 84. a directional rod; 86. a fixing ring; 87. a fixing plate; 88. a cross arm.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 to 6, a water glass quantitative feeding device comprises a tank body 1; the bottom end of the tank body 1 is fixedly connected with a booster pump 2, the bottom end of the booster pump 2 is fixedly connected with a hose 3, one end of the hose 3 away from the booster pump 2 is fixedly connected with a quantitative assembly 4, and the bottom end of the quantitative assembly 4 is provided with a quantitative cylinder 5; the quantitative assembly 4 comprises a movable tube 41, the top end of the movable tube 41 is fixedly connected with a hose 3, the bottom end of the movable tube 41 is fixedly connected with a piston block 42, and the piston block 42 is in sliding connection with the inner wall of the quantitative barrel 5; specifically, water glass is stored in the inner side of the tank body 1, the booster pump 2 fixedly connected with the bottom end of the tank body 1 sends the water glass into the quantifying component 4 through the hose 3 connected with the bottom end, the movable tube 41 in the quantifying component 4 is matched with the piston block 42 fixedly connected with the bottom end to reciprocate upwards along the axial direction of the quantifying cylinder 5, so that the position of the movable tube 41 in the quantifying cylinder 5 is more required to be regulated, quantitative water glass conveying is realized, the mixing required proportion of the water glass can be effectively ensured, the sand mold quality is ensured, the casting quality is finally ensured, the production cost is reduced, the production efficiency is improved, the device has the advantages of simple structure, flexible use and strong practicability, and is worthy of wide popularization;

a sealing ring 43 is sleeved on the outer side of the piston block 42, and the other side of the sealing ring 43 is attached to the inner wall of the quantifying cylinder 5; the upper end of the piston block 42 is fixedly connected with a pressure relief valve 44, the inner side of the pressure relief valve 44 is provided with a ventilation groove 45, and the ventilation groove 45 is provided with a ventilation layer 46; specifically, the sealing ring 43 fixedly connected with the piston block 42 is attached to the inner wall of the quantifying cylinder 5, when the piston block 42 reciprocates upwards along the axial direction of the quantifying cylinder 5, compressed gas in the quantifying cylinder 5 is discharged from the pressure release valve 44, so that when the quantifying cylinder 5 is filled with the movable pipe 41, the air pressure in the quantifying cylinder 5 is prevented from being compressed, compressed gas is discharged from the ventilation groove 45 in the pressure release valve 44, the ventilation layer 46 fixedly connected with the ventilation groove 45 isolates the water glass, the water glass is prevented from overflowing along the ventilation groove 45, the water glass is prevented from being reduced due to the compressed gas, the proportion of ash glass during mixing is prevented, and the quality of castings is reduced;

one side of the tank body 1 is fixedly connected with a fixing frame 7, the bottom end of the fixing frame 7 is provided with an adjusting component 8, and one side of the adjusting component 8 is provided with a quantifying component 4; the adjusting component 8 comprises a fixed seat 81, one side of the fixed seat 81 is fixedly connected with a fixed ring 86, and the inner side of the fixed ring 86 is sleeved with a quantitative cylinder 5; the bottom end of the fixed seat 81 is fixedly connected with a driving motor 82, the top end of the driving motor 82 is provided with a threaded screw rod 83, the upper end of the threaded screw rod 83 is in threaded connection with a cross arm 88, and the cross arm 88 is fixedly connected with the movable tube 41 through a fixed plate 87; a sliding groove is formed in the middle of the cross arm 88, a directional rod 84 is arranged in the sliding groove in a sliding mode, and the fixed seat 81 and the fixed frame 7 are fixedly connected by the directional rod 84; a discharge pipe is arranged at the bottom end of the quantitative cylinder 5, and one side of the discharge pipe is fixedly connected with a control valve 6; specifically, tank body 1 one side fixed connection's mount 7 is arranged in fixed adjusting part 8, fixed seat 81 one side carries out fixed connection with quantitative section of thick bamboo 5 with solid fixed ring 86 in adjusting part 8, stability when improving quantitative section of thick bamboo 5 use, fixed seat 81 bottom fixed connection's driving motor 82 drive screw 83 rotates, threaded connection's xarm 88 in the screw 83 reciprocates along screw 83 axial, the movable tube 41 that xarm 88 connected changes in quantitative section of thick bamboo 5 axial reciprocating motion, realize quantitative section of thick bamboo 5 in the position of piston piece 42, so that more have the water glass mixing ratio and adjust, this device simple structure, flexible in use, the practicality is strong.

The device also comprises an on-off valve 47, and the on-off valve 47 is arranged in the movable pipe 41; the on-off valve 47 comprises a movable tube 471, a guide tube 474 is arranged at the top end of the movable tube 471, the guide tube 474 is fixed on the inner wall of the movable tube 471, a supporting spring 476 is arranged between the guide tube 474 and the movable tube 471, a guide tube 475 is arranged at the inner side of the guide tube 474, and the guide tube 475 is communicated with the movable tube 471; the bottom end of the movable tube 471 is fixedly connected with a material blocking block 472, a material discharging groove 473 is formed in the inner side of the material blocking block 472, and the material discharging groove 473 is communicated with the movable tube 471 and the quantitative tube 5; specifically, the on-off valve 47 is disposed in the movable tube 41, the movable tube 471 in the on-off valve 47 is slidably connected with the movable tube 41, the top end of the movable tube 471 is fixedly connected with a supporting spring 476, and the top end of the supporting spring 476 is fixed on the guide tube 474, when the movable tube 41 injects materials into the quantitative tube 5, a sealing cavity is formed by a baffle block 472 fixedly connected with the bottom end of the movable tube 471 and a limiting ring 477, when the movable tube 471 moves directionally along the limiting ring 477 under the pressure of injecting materials, a discharge groove 473 formed by the baffle block 472 is communicated with the quantitative tube 5, so that the water glass material is conveniently injected into the quantitative tube 5, when the quantitative tube 5 is filled with the water glass material, the top surface of the water glass material is located in the quantitative tube 5 to support the baffle block 472 to move upwards, the pressure in a pipeline connected with the booster pump 2 (the booster pump is a pressure start-stop pump) is greater than a preset value, so that the booster pump 2 stops working, and the baffle block fixedly connected with the bottom end of the movable tube 471 is driven under the elastic driving of the supporting spring 476 fixed on the guide tube 474 to close the discharge hole of the movable tube 41.

Working principle: the inner side of the tank body 1 is stored with water glass, the booster pump 2 fixedly connected with the bottom end of the tank body 1 sends the water glass into the quantitative assembly 4 through the hose 3 connected with the bottom end, the fixed frame 7 fixedly connected with one side of the tank body 1 is used for fixing the adjusting assembly 8, one side of the fixed seat 81 in the adjusting assembly 8 is fixedly connected with the quantitative cylinder 5 through the fixed ring 86, the stability of the quantitative cylinder 5 in use is improved, the driving motor 82 fixedly connected with the bottom end of the fixed seat 81 drives the threaded screw 83 to rotate, the cross arm 88 in threaded connection in the threaded screw 83 axially reciprocates along the threaded screw 83, the movable tube 41 connected with the cross arm 88 axially reciprocates in the quantitative cylinder 5, the position of the piston block 42 in the quantitative cylinder 5 is changed, so that the position of the movable tube 41 in the quantitative cylinder 5 is more required to be adjusted, the quantitative conveying of the water glass is realized, when the water glass fills the quantitative cylinder 5, an opening and closing valve 47 is arranged in the movable tube 41, a movable tube 471 in the opening and closing valve 47 is in sliding connection with the movable tube 41, a supporting spring 476 is fixedly connected to the top end of the movable tube 471, the top end of the supporting spring 476 is fixed on the guide tube 474, a stop block 472 fixedly connected to the bottom end of the movable tube 471 forms a sealing cavity with a limiting ring 477, when the movable tube 471 moves directionally along the limiting ring 477 under the pressure of the injected material, a discharge groove 473 arranged on the stop block 472 is communicated with the quantitative cylinder 5, the water glass is conveniently injected into the quantitative cylinder 5, when the water glass in the quantitative cylinder 5 is filled, the top surface of the water glass in the quantitative cylinder 5 supports the stop block 472 to move upwards, the pressure in a pipeline connected with the booster pump 2 (the booster pump is a pressure start-stop pump) is greater than a preset value, so that the booster pump 2 stops working, under the elastic driving of the supporting spring 476 matched and fixed on the guide cylinder 474, the stop block 472 fixedly connected with the bottom end of the movable cylinder 471 is driven to close the discharge hole at the bottom end of the movable tube 41, so that the phenomenon that the residual water glass material in the pipeline flows into the quantitative cylinder to cause the inaccurate mixing proportion of the water glass in the quantitative cylinder and influence the product quality is avoided.

Claims (10)

1. The water glass quantitative feeding device is characterized by comprising a tank body (1);

the device is characterized in that a booster pump (2) is fixedly connected to the bottom end of the tank body (1), a hose (3) is fixedly connected to the bottom end of the booster pump (2), a quantitative assembly (4) is fixedly connected to one end, away from the booster pump (2), of the hose (3), and a quantitative cylinder (5) is arranged at the bottom end of the quantitative assembly (4);

the quantitative assembly (4) comprises a movable tube (41), the top end of the movable tube (41) is fixedly connected with a hose (3), the bottom end of the movable tube (41) is fixedly connected with a piston block (42), and the piston block (42) is in sliding connection with the inner wall of the quantitative barrel (5).

2. The water glass quantitative feeding device according to claim 1, wherein a sealing ring (43) is sleeved on the outer side of the piston block (42), and the other side of the sealing ring (43) is attached to the inner wall of the quantitative barrel (5).

3. The water glass quantitative feeding device according to claim 1, wherein a pressure release valve (44) is fixedly connected to the upper end of the piston block (42), a ventilation groove (45) is formed in the inner side of the pressure release valve (44), and a ventilation layer (46) is arranged in the ventilation groove (45).

4. The water glass quantitative feeding device according to claim 1, wherein a fixing frame (7) is fixedly connected to one side of the tank body (1), an adjusting component (8) is arranged at the bottom end of the fixing frame (7), and a quantitative component (4) is arranged on one side of the adjusting component (8).

5. The water glass quantitative feeding device according to claim 4, wherein the adjusting component (8) comprises a fixed seat (81), one side of the fixed seat (81) is fixedly connected with a fixed ring (86), and a quantitative cylinder (5) is sleeved on the inner side of the fixed ring (86).

6. The water glass quantitative feeding device according to claim 5, wherein a driving motor (82) is fixedly connected to the bottom end of the fixing seat (81), a threaded screw rod (83) is arranged at the top end of the driving motor (82), a cross arm (88) is connected to the upper end of the threaded screw rod (83) in a threaded manner, and the cross arm (88) is fixedly connected with the movable pipe (41) through a fixing plate (87).

7. The water glass quantitative feeding device according to claim 6, wherein a sliding groove is formed in the middle of the cross arm (88), a directional rod (84) is arranged in the sliding groove in a sliding mode, and the directional rod (84) fixedly connects the fixing seat (81) with the fixing frame (7).

8. The water glass quantitative feeding device according to claim 1, wherein a discharge pipe is arranged at the bottom end of the quantitative barrel (5), and a control valve (6) is fixedly connected to one side of the discharge pipe.

9. A water glass dosing device according to claim 1, further comprising an on-off valve (47), and the on-off valve (47) is arranged in the movable tube (41); the on-off valve (47) comprises a movable barrel (471), a guide barrel (474) is arranged at the top end of the movable barrel (471), the guide barrel (474) is fixed on the inner wall of the movable barrel (471), a supporting spring (476) is arranged between the guide barrel (474) and the movable barrel (471), a guide groove (475) is formed in the inner side of the guide barrel (474), and the guide groove (475) is communicated with the movable barrel (471).

10. The water glass quantitative feeding device according to claim 9, wherein a blocking block (472) is fixedly connected to the bottom end of the movable barrel (471), a discharge groove (473) is formed in the inner side of the blocking block (472), and the discharge groove (473) is communicated with the movable barrel (471) and the quantitative barrel (5).

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