CN116281813A

CN116281813A - Water glass quantitative discharging equipment for production line

Info

Publication number: CN116281813A
Application number: CN202211617341.4A
Authority: CN
Inventors: 陈瑞仕; 陈德辉
Original assignee: Gaoan Feiteng New Material Technology Co ltd
Current assignee: Gaoan Feiteng New Material Technology Co ltd
Priority date: 2022-12-15
Filing date: 2022-12-15
Publication date: 2023-06-23
Anticipated expiration: 2042-12-15
Also published as: CN116281813B

Abstract

The invention relates to water glass quantitative discharging equipment for a production line, which comprises a machine body, wherein a pouring chamber is formed in the machine body, a conveying mechanism is fixed at the bottom of the pouring chamber, clamping mechanisms are symmetrically arranged at two sides of the conveying mechanism in the pouring chamber and used for clamping and positioning a bottle opening of a packaging bottle for containing water glass, a first cylinder with a downward telescopic end is fixed on the upper wall of the pouring chamber, and a lifting plate is fixed at the bottom of the first cylinder; the invention integrates detection and filling, can detect the packaging bottles, can finish filling at the same time, can directly discharge unqualified packaging bottles without later stage manual or equipment screening, and ensures the production efficiency because the screening process is finished along the belt in the lifting process of the lifting plate.

Description

Water glass quantitative discharging equipment for production line

Technical Field

The invention relates to the field related to water glass production, in particular to water glass quantitative discharging equipment for a production line.

Background

In the water glass production process, water glass is required to be quantitatively poured into each packaging bottle, and the prior art generally adopts a mode of simultaneously discharging a plurality of packaging bottles at one time to realize quantitative discharging of the water glass. However, due to uncertain production quality of the packaging bottles, leakage can occur after the water glass is filled in the packaging bottles, or the water glass cannot be sealed in the follow-up sealing process due to deformation of bottle openings, so that the water glass is wasted, a detection process is set in advance, certain equipment and manpower are required to be wasted, the production cost is improved, the production efficiency is reduced, and a great deal of manpower and time are required to be wasted for disassembly, assembly and cleaning when the water glass quantitative discharging equipment is stopped for maintenance or water glass product replacement in the prior art, so that the production efficiency is greatly reduced, and the labor intensity and cost are improved.

Disclosure of Invention

The invention aims to provide water glass quantitative discharging equipment for a production line, which solves the problems.

The technical aim of the invention is realized by the following technical scheme: the utility model provides a water glass ration discharging equipment for production line, includes the organism, set up in the organism and pour into the room, it is fixed with conveying mechanism to pour into the room bottom, pour into the room and be located conveying mechanism's bilateral symmetry is equipped with clamping mechanism, clamping mechanism is used for carrying out the clamping location with the packing bottle bottleneck of water glass, it is fixed with cylinder one that flexible end is down to pour into the room upper wall, cylinder one bottom is fixed with the lifter plate, evenly distribute in the lifter plate and fixed mounting have the ration discharging machine, the distribution direction of ration discharging machine is unanimous with conveying mechanism's direction of delivery, the ration discharging machine is equipped with two groups equal in quantity in central symmetry, pour into the room and be located conveying mechanism one side is equipped with two vertically upwards telescopic links, the telescopic link top all is fixed with the cylinder two that transversely set up, cylinder two flexible end inwards and be fixed with the fixed plate, every the fixed plate corresponds with a set of ration discharging machine;

every ration discharging machine bottom all is fixed with horizontal slide rail, the horizontal slide rail slides and is equipped with the slider, slider slip direction with two flexible directions of cylinder are unanimous and all with conveying mechanism direction of delivery is perpendicular, run through and be fixed with gas-supply pipe and transfer line about respectively towards the both ends of slip direction in the slider, the gas-supply pipe bottom rotates and the intercommunication installs the mould bottle lid, the transfer line with correspond ration discharging machine liquid outlet intercommunication, the gas-supply pipe air inlet is connected with external air pump, every be equipped with ventilation mechanism on the fixed plate, ventilation mechanism can with same on the slider mould bottle lid with the transfer line intercommunication, and then the gas that the mould bottle lid export is passed through ventilation mechanism carries to in the transfer line, and then right the transfer line is inside weathers.

Preferably, the inner diameter of the mould bottle cap is consistent with the outer thread inner diameter of the bottle mouth of the packaging bottle, an elastic sealing ring is arranged on the inner ring surface of the mould bottle cap, a driving wheel is installed at the bottom of the sliding part and props against the mould bottle cap, the rotation of the driving wheel can drive the mould bottle cap to rotate, and the inner diameter of the mould bottle cap is provided with an inner thread which can be connected with the outer thread of the packaging bottle.

Preferably, the conveying device comprises a conveying frame fixedly arranged in the pouring chamber, a conveying belt is arranged in the conveying frame, and a conveying motor for controlling the conveying belt to move is arranged on the conveying frame.

Preferably, the top of the conveying frame and the two sides of the conveying belt are fixed with supports, and a railing is fixed between the adjacent supports on the same side.

Preferably, the clamping mechanism comprises fixing rods I which are fixedly arranged in the pouring chamber and located on two sides of the conveying frame, two fixing rods I located on the same side are arranged at two ends of the inlet and the outlet of the pouring chamber respectively, air cylinders III are transversely fixed at the tops of the fixing rods I, the air cylinders III face one side of the conveying frame, and clamping plates are jointly fixed at the telescopic ends of the two air cylinders III located on the same side of the conveying frame.

Preferably, a slide guiding cloth is fixed at the bottom of the conveying clamping plate far away from one side of the fixing plate, and the bottom of the slide guiding cloth is inclined outwards and fixedly connected with the bottom of the pouring chamber.

Preferably, a fixing rod II fixed in the pouring chamber is arranged between the fixing rods I on one side, an inductor and an interception telescopic rod are arranged on one side, facing the conveying frame, of the fixing rods I and II, the inductor can detect the packaging bottle and count, and the interception telescopic rod can extend to the upper side of the conveying frame to block the packaging bottle.

Preferably, the feed liquor mouth of ration ejection of compact machine is connected with sodium silicate feedway, ration ejection of compact machine can output quantitative sodium silicate, ration ejection of compact machine discharge gate with transfer line top feed inlet is connected with hose one, ration ejection of compact machine side is fixed with the air pressure detector, the air pressure detector gas outlet with the transfer line air inlet is connected with hose two, the air pressure detector air inlet is connected with the trachea, the trachea is connected with external air pump.

Preferably, a groove is formed in one side, facing the fixed plate, of the sliding piece, the fixed plate can be simultaneously clamped into the groove of the same group of sliding pieces, and a first spring is connected between the sliding piece and the horizontal sliding rail.

Preferably, the ventilation mechanism comprises a first ventilation cavity and a second ventilation cavity which are arranged in the fixed plate and are upward in opening, the number and the positions of the first ventilation cavity and the second ventilation cavity which are arranged on the fixed plate correspond to the number and the positions of the corresponding group of die bottle caps and the infusion tubes at the bottom of the quantitative discharging machine, when the die bottle caps are aligned with the first ventilation cavity, the infusion tubes are aligned with the second ventilation cavity, ventilation holes are communicated between the first ventilation cavity and the bottom of the corresponding second ventilation cavity, a sealing plate sliding cavity penetrating through the first ventilation cavity and the sliding cloth is transversely arranged in the fixed plate, a sealing plate is arranged in the sealing plate sliding cavity in a sliding mode, through holes which can correspond to the second ventilation cavity in number and positions are vertically penetrated in the sealing plate, and when the sealing plate is opened in the first ventilation cavity, the through holes can be communicated with the corresponding second ventilation cavity.

Preferably, a second spring is fixedly connected between the outward side of the sealing plate and the inner wall of the sliding cavity of the sealing plate, a pull rope is fixedly connected to the outward side of the sealing plate, and the pull rope extends out of the outside and is fixedly connected with an inner rod corresponding to a group of telescopic rods.

Preferably, a spring is provided in the telescopic rod, and the spring supports the telescopic rod to maintain a middle position in an initial state.

Preferably, a clamping rod is fixed on the inner side of the fixing plate, and the clamping rod can be clamped into the groove.

Preferably, a control module is arranged on the machine body, and the control module can control the operation of the whole discharging equipment.

In summary, the invention has the following beneficial effects:

1. the packaging bottle can be detected and filled simultaneously by integrating detection and filling, unqualified packaging bottles can be directly discharged, later-stage manual or equipment screening is not needed, the screening process is completed along the belt in the lifting process of the lifting plate, excessive time is not occupied, and the production efficiency is ensured;

2. the quantitative discharging machines are arranged into two groups, a mode of detecting the quantitative discharging machines in a first group and filling the quantitative discharging machines in a second group can be adopted, the two groups can be synchronously detected and then filled, and simultaneously, only filling work can be carried out, and the quantitative discharging machines are selected according to the use requirements, so that more production and use requirements are met;

3. when the water glass product is maintained and replaced by stopping, the air pump can supply air to the mould bottle cap, the mould bottle cap and the infusion tube are ventilated through the ventilation device, the infusion tube is refluxed, the whole water glass conveying channel is refluxed, the whole conveying channel is cleaned and dried, the cleaning complexity is reduced, the cost is reduced, and the efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained from these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of a first perspective view of an embodiment of the present invention;

FIG. 2 is a schematic view of a second perspective of an embodiment of the present invention;

FIG. 3 is a schematic view of a perspective view of a quantitative discharger according to an embodiment of the present invention;

FIG. 4 is a schematic view of a second perspective view of a quantitative discharger according to an embodiment of the present invention;

FIG. 5 is a schematic perspective view of a fixing plate according to an embodiment of the present invention;

FIG. 6 is a schematic view of a partial cross-sectional perspective structure of a fixing plate in an embodiment of the present invention;

fig. 7 is a schematic perspective view of a quantitative discharging machine combined with a fixing plate according to an embodiment of the present invention.

In the figure: 10. a body; 11. a perfusion chamber; 12. a first cylinder; 13. a lifting plate; 14. a quantitative discharging machine; 15. a telescopic rod; 16. a second cylinder; 17. a fixing plate; 18. a horizontal slide rail; 19. a slider; 20. a gas pipe; 21. an infusion tube; 22. a mould bottle cap; 23. a carriage; 24. a conveyor belt; 25. a first fixed rod; 26. a third cylinder; 27. a clamping plate; 28. a slide guiding cloth; 29. an inductor; 30. intercepting a telescopic rod; 31. a first hose; 32. an air pressure detector; 33. a second hose; 34. an air pipe; 35. a groove; 36. a first spring; 37. a first ventilation cavity; 38. a second ventilation cavity; 39. a vent hole; 40. a seal plate sliding cavity; 41. a sealing plate; 42. a through hole; 43. a second spring; 44. a pull rope; 45. a clamping rod; 47. a conveying motor; 48. a support; 49. railing; 50. a driving wheel; 51. and a second fixing rod.

Detailed Description

The utility model provides a water glass ration discharging equipment for production line that combines fig. 1-7, which comprises a machine body 10, a perfusion chamber 11 has been seted up in the organism 10, perfusion chamber 11 bottom is fixed with conveying mechanism, perfusion chamber 11 is interior and lie in conveying mechanism's both sides symmetry is equipped with clamping mechanism, clamping mechanism is used for carrying out the clamping location with the packing bottle bottleneck of water glass, perfusion chamber 11 upper wall is fixed with cylinder one 12 that the telescopic end is down, cylinder one 12 bottom is fixed with lifter plate 13, evenly distributed and fixed mounting have ration discharging machine 14 in the lifter plate 13, the distribution direction of ration discharging machine 14 is unanimous with conveying mechanism's direction of conveyance, ration discharging machine 14 is equipped with two sets of equal quantity about the central symmetry, perfusion chamber 11 is interior and lie in conveying mechanism one side is equipped with two vertically upwards telescopic link 15, telescopic link 15 top all is fixed with cylinder two 16 of horizontal setting, cylinder two 16 telescopic end inwards and is fixed with fixed plate 17, every fixed plate 17 corresponds with a set of ration discharging machine 14;

each quantitative discharging machine 14 bottom all is fixed with horizontal slide rail 18, the slip of horizontal slide rail 18 is equipped with slider 19, slider 19 slip direction with cylinder two 16 flexible direction is unanimous and all with conveying mechanism direction of delivery is perpendicular, run through respectively and be fixed with gas-supply pipe 20 and transfer line 21 from top to bottom towards the both ends of slip direction in slider 19, gas-supply pipe 20 bottom rotates and communicates and installs mould bottle lid 22, transfer line 21 with correspond quantitative discharging machine 14 liquid outlet intercommunication, gas-supply pipe 20 air inlet is connected with external air pump, every be equipped with ventilation mechanism on the fixed plate 17, ventilation mechanism can with same mould bottle lid 22 on the slider 19 with transfer line 21 intercommunication, and then the gas that mould bottle lid 22 output is through ventilation mechanism carries to in the transfer line 21, and then to the inside of transfer line 21 weathers.

The inner diameter of the die bottle cap 22 is consistent with the outer thread inner diameter of the bottle mouth of the packaging bottle, an elastic sealing ring is arranged on the inner annular surface of the die bottle cap 22, a driving wheel 50 is installed at the bottom of the sliding piece 19, the driving wheel 50 abuts against the die bottle cap 22, the rotation of the driving wheel 50 can drive the die bottle cap 22 to rotate, and the inner diameter of the die bottle cap 22 is provided with an inner thread which can be connected with the outer thread of the packaging bottle.

Advantageously, the conveying device comprises a conveying frame 23 fixedly arranged in the pouring chamber 11, a conveying belt 24 is arranged in the conveying frame 23, and a conveying motor 47 for controlling the conveying belt 24 to move is arranged on the conveying frame 23.

Advantageously, supports 48 are fixed on the top of the carriage 23 and on both sides of the conveyor belt 24, and a railing 49 is fixed between the adjacent supports 48 on the same side.

Advantageously, the clamping mechanism comprises a first fixing rod 25 fixedly arranged in the pouring chamber 11 and positioned at two sides of the conveying frame 23, two first fixing rods 25 positioned at the same side are respectively arranged at two inlet and outlet ends of the pouring chamber 11, three air cylinders 26 are transversely fixed at the top of the first fixing rods 25, the three air cylinders 26 face one side of the conveying frame 23, and clamping plates 27 are jointly fixed at telescopic ends of the three air cylinders 26 positioned at the same side of the conveying frame 23.

Advantageously, a slide guiding cloth 28 is fixed at the bottom of the conveying clamping plate 27 at the side far away from the fixing plate 17, and the bottom of the slide guiding cloth 28 is inclined outwards and fixedly connected with the bottom of the pouring chamber 11.

Advantageously, a second fixing rod 51 fixed in the pouring chamber 11 is arranged between the first fixing rods 25 on one side, the second fixing rods 25 and the second fixing rods 51 are both provided with an inductor 29 and an interception telescopic rod 30 towards one side of the conveying frame 23, the inductor 29 can detect and count packaging bottles, and the interception telescopic rod 30 can extend to the upper side of the conveying frame 23 to block the packaging bottles.

The utility model has the advantages of, quantitative discharge machine 14's inlet is connected with sodium silicate feedway, quantitative discharge machine 14 can export quantitative sodium silicate, quantitative discharge machine 14 discharge gate with transfer line 21 top feed inlet is connected with hose one 31, quantitative discharge machine 14 side is fixed with air pressure detector 32, air pressure detector 32 gas outlet with air supply line 20 air inlet is connected with hose two 33, air pressure detector 32 gas inlet end is connected with trachea 34, trachea 34 is connected with external air pump.

Advantageously, the side of the sliding member 19 facing the fixed plate 17 is provided with a groove 35, the fixed plate 17 can be simultaneously clamped into the groove 35 of the same group of sliding members 19, and a first spring 36 is connected between the sliding member 19 and the horizontal sliding rail 18.

Advantageously, the ventilation mechanism comprises a first ventilation cavity 37 and a second ventilation cavity 38 which are arranged in the fixed plate 17 and are upward in opening, the number and the positions of the first ventilation cavity 37 and the second ventilation cavity 38 which are arranged on the fixed plate 17 correspond to those of the corresponding group of the die caps 22 and the infusion tubes 21 at the bottom of the quantitative discharging machine 14, when the die caps 22 are aligned with the first ventilation cavity 37, the infusion tubes 21 are aligned with the second ventilation cavity 38, a ventilation hole 39 is communicated between the first ventilation cavity 37 and the bottom of the corresponding second ventilation cavity 38, a sealing plate sliding cavity 40 penetrating through the first ventilation cavity 37 and the guide sliding cloth 28 is transversely arranged in the fixed plate 17, a sealing plate 41 is arranged in the sliding cavity 40 in a sliding mode, and through holes 42 which can be corresponding to the second ventilation cavity 38 in number and the positions are vertically penetrated in the sealing plate 41, and when the sealing plate 41 is opened with the first ventilation cavity 37, the through holes 42 can be communicated with the corresponding second ventilation cavity 38.

Advantageously, a second spring 43 is fixedly connected between the outward side of the sealing plate 41 and the inner wall of the sliding cavity 40 of the sealing plate, a pull rope 44 is fixedly connected to the outward side of the sealing plate 41, and the pull rope 44 extends out to the outside and is fixedly connected with the inner rod corresponding to the group of telescopic rods 15.

Advantageously, a spring is provided in the telescopic rod 15, which spring supports the telescopic rod 15 in an initial state in a neutral position.

Advantageously, a locking rod 45 is fixed to the fixing plate 17 on the inward side, said locking rod 45 being able to be locked into said recess 35.

Advantageously, the body 10 is provided with a control module which is able to control the operation of the whole discharging device.

The application method of the invention comprises the following steps:

the initial state is as follows: the first cylinder 12, the second cylinder 16, the third cylinder 26 and the interception telescopic rod 30 are in a shortened state, the lifting plate 13 is positioned at the uppermost side, the fixing plate 17 is positioned at the side edge above the conveying frame 23 and below the lifting plate 13, the clamping plates 27 are far away from each other, and the sliding piece 19 is under the elasticity of the first spring 36, so that the die bottle cap 22 is opposite to the upper side of the conveying frame 23, and the fixing plate 17 is positioned at the middle position.

When the packaging bottle air leakage detection device is used, the bottom of a group of quantitative discharging machines 14 close to the input end of the conveying frame 23 is selected for packaging bottle air leakage detection, the bottom of a group of quantitative discharging machines 14 close to the output end of the conveying frame 23 is used for filling, the first cylinder 12 is controlled by the control module to produce and drive the lifting plate 13 to descend so that the grooves 35 are aligned with the clamping rods 45 in height, the second cylinder 16 close to the output side is controlled to stretch to drive the corresponding fixing plates 17 to move inwards so as to drive the clamping rods 45 to clamp into the corresponding group of grooves 35, the second cylinder 16 stretches further so as to drive each horizontal sliding rail 18 in the group to move and enable the first spring 36 to generate elastic force, the infusion tube 21 positioned on the group towards the output side is right above the conveying belt 24, the first cylinder 12 is controlled to shorten and drive the lifting plate 13 to ascend, and the clamping rods 45 towards the output side are clamped into the corresponding group of grooves 35, the slide 19 is lifted to drive the corresponding fixing plate 17 to lift, the corresponding telescopic rods 15 are correspondingly stretched in a self-adaptive manner, the packaging bottles for loading water glass are placed at the input ends above the conveying belt 24 one by one, the conveying motor 47 is controlled by the control module to start and drive the conveying belt 24 to convey, meanwhile, the cylinders three 26 on two sides are controlled to stretch, the clamping plates 27 on two sides are driven to approach to the space between the two sides to be equal to the size of the packaging bottles, the conveying belt 24 conveys the packaging bottles into the pouring chamber 11, the limitation of the clamping plates 27 on two sides keeps on a straight line, the sensor 29 in the middle detects the packaging bottles, the corresponding interception telescopic rods 30 are controlled to stretch, the packaging bottles are blocked, the interception telescopic rods 30 on the input side are controlled to stretch to block the subsequent packaging bottles after the sensor 29 on the input side detects that the corresponding quantity of packaging bottles pass, at this time, the lifting plate 13 is controlled to descend, a group of die bottle caps 22 close to the input side is controlled to descend, meanwhile, the driving wheel 50 is controlled to rotate and drive the die bottle caps 22 to rotate forward, so that the die bottle caps 22 are sleeved on the bottle mouths of the packaging bottles in a threaded manner while descending, at this time, the air pump is controlled to supply air to the group, the air enters the packaging bottles sequentially through the air pipe 34, the air pressure detector 32, the hose two 33, the air pipe 20 and the die bottle caps 22, if the bottle mouths are normal and cling to the inner walls of the die bottle caps 22 and the bottle bodies are airtight, the air pressure detector 32 corresponding to the air pressure detector after a period of time detects that the air pressure is stable and reaches the standard, the packaging bottles are normal, meanwhile, if the packaging bottle bodies are concave inwards, the concave parts can be ejected by injecting high-pressure air into the bottle bodies, so that the reduction of the packaging bottles is avoided, if the packaging bottle mouths are deformed and can not cling to the inner walls of the die bottle caps 22 or the bottle bodies are damaged, if the air pressure detector 32 detects that the air pressure is abnormal, the packaging bottle is judged to be air-leaked, at the moment, the lifting plate 13 is controlled to lift, one side of the corresponding die bottle cap 22 is controlled to lift and reversely rotate for the normal packaging bottle, meanwhile, the clamping plate 27 is controlled to clamp the bottle body properly, because the normal packaging bottle is filled with high-pressure air, the friction force between the clamping plate 27 and the packaging bottle is not easy to reduce until the die bottle cap 22 is separated from the bottle mouth, the corresponding die bottle cap 22 only lifts and does not reversely rotate for the air-leaked packaging bottle, the air-leaked packaging bottle is lifted, at the moment, the second cylinder 16 corresponding to one group controls the fixing plate 17 to move inwards to further tightly press one side of the packaging bottle body, the bottom of the other side of the packaging bottle is controlled to tightly press against the side of the other side clamping plate 27, at the moment, the corresponding die bottle cap 22 is controlled to reversely rotate, and the fixing plate 17 and the opposite side clamping plate 27 clamp the packaging bottle, the die bottle cap 22 is also easy to unscrew, when the die bottle cap falls off, the fixing plate 17 is rapidly pushed out outwards at the moment, and then the packaging bottles are pushed out to the slide guiding cloth 28 and fall to the outside of the machine body 10, at the moment, the clamping plates 27 are controlled to be far away from each other to the size of the packaging bottles, the excessive friction force to the bottles is avoided, the intercepting telescopic rods 30 in the middle are controlled to be shortened and opened, meanwhile, the intercepting telescopic rods 30 at the output end are controlled to block, normal packaging bottles continue to move to the lower part of the next quantitative discharging machine 14, the middle sensor 29 detects that the normal packaging bottles are blocked by the rear parts of the packaging bottles again, the normal packaging bottles are blocked by the sensor 29 at the output end, the normal packaging bottles are close to the output end as much as possible, after the sensor 29 at the input end detects the input of the packaging bottles, the intercepting telescopic rods 30 at the input end are controlled to descend again, the lifting plates 13 are controlled to be continuously detected, the packaging bottles at the input end are moved to the lower part of the infusion tube 21, the packaging bottles after the sealing detection are continuously move to the lower part of the packaging bottles, the packaging bottles continue to be filled in the quantitative discharging machine 21 according to the normal packaging bottle quantity, the quantity is detected, the packaging bottles are filled in the corresponding quantitative discharging machine is started, the packaging bottles are filled after the quantitative discharging machine is opened, the packaging bottles are continuously and the packaging bottles are well, the packaging bottles are filled in the corresponding quantitative discharging machine is opened, the packaging bottles are filled, and the packaging bottles are filled, and the packaging bottles are filled.

When the infusion tube 21 and the die caps 22 below the two groups of quantitative discharging machines 14 are selected to simultaneously perform the mode of detecting before filling, when the output end sensor 29 detects the packaging bottles, the corresponding interception telescopic rod 30 is controlled to stop, when the input end sensor 29 detects that the required number of packaging bottles move into the filling chamber 11, the input end interception telescopic rod 30 stops blocking the conveying belt 24, the lifting plate 13 is controlled to descend and drive all the die caps 22 to descend and rotate until all the die caps 22 are sleeved in the lower Fang Pingkou to perform detection, the leaked packaging bottles are discharged according to the process, at the moment, the packaging bottles are kept in place due to the fact that the conveying belt 24 is motionless, when the lifting plate 13 descends to be aligned with the fixing plate 17, the two groups of fixing plates 17 are controlled to synchronously move and push the sliding piece 19 until the infusion tube 21 is right above the bottle opening, the quantitative discharging machine 14 above the normal packaging bottles is controlled to quantitatively discharge simultaneously, then the normal packaging bottles are filled, after filling is finished, the two ends of the telescopic rod 30 is controlled to descend, when the output end sensor 29 detects that the filled packaging bottles are detected to be completely, the packaging bottles are again detected to enter the same as the required number of packaging bottles after the interception device is detected, and the packaging bottles are filled into the same chamber after the packaging bottles are detected, and the packaging bottles are uniformly and the packaging bottles are filled into the packaging chamber after the packaging container is detected.

If the bottles do not need to be detected and are directly filled, the two groups of fixing plates 17 can be directly controlled to push the sliding parts 19 to move to all the infusion tubes 21 to move above the conveying belt 24, and the filling work is directly carried out, so that the production efficiency is greatly improved.

When the equipment is required to be maintained or different water glass is replaced, in an initial state, the cylinder II 16 is controlled to stretch and drive the fixed plate 17 to move to the position right below the lifting plate 13, so that the die bottle cap 22 is opposite to the first ventilation cavity 37, the infusion tube 21 is opposite to the second ventilation cavity 38, at the moment, because the pull rope 44 is tensioned, the sealing plate 41 moves reversely relative to the fixed plate 17 and opens the first ventilation cavity 37, meanwhile, the through hole 42 is communicated with the second ventilation cavity 38, the spring II 43 is compressed, the lifting plate 13 is controlled to descend, the die bottle cap 22 is driven to be inserted into the first ventilation cavity 37, the infusion tube 21 is inserted into the second ventilation cavity 38, at the moment, all the fixed plates 17 are controlled to be opened, the air pump supplies air to all the die bottle caps 22, and then air output by the die bottle cap 22 enters the first ventilation cavity 37, and flows back through the air holes 39, and then water glass in the quantitative discharging machine 14 and an external pipeline are refluxed through the infusion tube 21, drying is ensured at the same time, residual water glass in the equipment can be avoided, and the quality of each glass batch can be ensured when the water glass is replaced.

The above embodiments are only for illustrating the technical concept and features of the present invention, and are intended to enable those skilled in the art to understand the present invention and implement it without limiting the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims

1. The utility model provides a water glass ration ejection of compact equipment for production line, includes organism (10), its characterized in that: a filling chamber (11) is formed in the machine body (10), a conveying mechanism is fixed at the bottom of the filling chamber (11), clamping mechanisms are symmetrically arranged at two sides of the conveying mechanism in the filling chamber (11), the clamping mechanisms are used for clamping and positioning a packaging bottle opening for containing water glass, a first cylinder (12) with a downward telescopic end is fixed on the upper wall of the filling chamber (11), a lifting plate (13) is fixed at the bottom of the first cylinder (12), quantitative discharging machines (14) are evenly distributed and fixedly mounted in the lifting plate (13), the distribution direction of the quantitative discharging machines (14) is consistent with the conveying direction of the conveying mechanism, two groups with the same quantity are symmetrically arranged in the filling chamber (11) about the center, two telescopic rods (15) which are vertically arranged at one side of the conveying mechanism are respectively fixed at the top ends of the telescopic rods (15), a second cylinder (16) with a transverse telescopic end faces inwards and is fixedly provided with a fixing plate (17), and each fixing plate (17) corresponds to one group of quantitative discharging machines (14);

every ration ejection of compact machine (14) bottom all is fixed with horizontal slide rail (18), it is equipped with slider (19) to slide in horizontal slide rail (18), slider (19) slip direction with cylinder two (16) flexible direction is unanimous and all with conveying mechanism direction of delivery is perpendicular, run through and be fixed with gas-supply pipe (20) and transfer line (21) about respectively towards the both ends of slip direction in slider (19), gas-supply pipe (20) bottom rotates and the intercommunication installs mould bottle lid (22), transfer line (21) with correspond ration ejection of compact machine (14) liquid outlet intercommunication, gas-supply pipe (20) air inlet is connected with external air pump, every be equipped with ventilation mechanism on fixed plate (17), ventilation mechanism can with same on the slider mould bottle lid (22) with transfer line (21) intercommunication, and then the gas that mould bottle lid (22) export is passed through in transfer line (21), and then to transfer line (21) inside is blown dry.

2. The water glass quantitative discharging device for a production line according to claim 1, wherein: the inner diameter of the die bottle cap (22) is consistent with the outer thread inner diameter of the bottle mouth of the packaging bottle, an elastic sealing ring is arranged on the inner annular surface of the die bottle cap (22), a driving wheel (50) is arranged at the bottom of the sliding part (19), the driving wheel (50) is propped against the die bottle cap (22), the rotation of the driving wheel (50) can drive the die bottle cap (22) to rotate, and the inner diameter of the die bottle cap (22) is provided with an inner thread which can be connected with the outer thread of the packaging bottle.

3. The water glass quantitative discharging device for a production line according to claim 1, wherein: the conveying device comprises a conveying frame (23) fixedly arranged in the pouring chamber (11), a conveying belt (24) is arranged in the conveying frame (23), and a conveying motor (47) for controlling the conveying belt (24) to move is arranged on the conveying frame (23).

4. A waterglass quantitative discharge apparatus for a production line according to claim 3, wherein: the top of the conveying frame (23) and two sides of the conveying belt (24) are fixedly provided with supports (48), and a railing (49) is fixed between the adjacent supports (48) on the same side.

5. A waterglass quantitative discharge apparatus for a production line according to claim 3, wherein: the clamping mechanism comprises a first fixing rod (25) which is fixedly arranged in the pouring chamber (11) and positioned on two sides of the conveying frame (23), two fixing rods (25) positioned on the same side are arranged at two ends of the inlet and the outlet of the pouring chamber (11) respectively, three air cylinders (26) are transversely fixed at the tops of the first fixing rods (25), the three air cylinders (26) face one side of the conveying frame (23), and clamping plates (27) are jointly fixed at telescopic ends of the three air cylinders (26) positioned on the same side of the conveying frame (23).

6. The water glass quantitative discharging device for a production line according to claim 1, wherein: a second fixing rod (51) fixed in the pouring chamber (11) is arranged between the first fixing rods (25) on one side, and an inductor (29) and an interception telescopic rod (30) are arranged on one side, facing the conveying frame (23), of the first fixing rods (25) and the second fixing rods (51).

7. The water glass quantitative discharging device for a production line according to claim 1, wherein: the utility model discloses a quantitative discharging machine, including ration discharging machine (14), air pipe (34) and gas pipe (34), ration discharging machine (14), air pipe (32) are fixed with air pressure detector (32) in the side of ration discharging machine (14), the inlet and the sodium silicate feedway of ration discharging machine (14) are connected, ration discharging machine (14) can export quantitative sodium silicate, ration discharging machine (14) discharge gate with transfer line (21) top feed inlet is connected with hose one (31), air pressure detector (32) gas outlet with gas pipe (20) air inlet is connected with hose two (33), air pressure detector (32) inlet end is connected with trachea (34), trachea (34) are connected with external air pump.

8. The water glass quantitative discharging device for a production line according to claim 1, wherein: the sliding piece (19) is provided with a groove (35) towards one side of the fixed plate (17), the fixed plate (17) can be simultaneously clamped into the groove (35) of the same group of sliding pieces (19), and a first spring (36) is connected between the sliding pieces (19) and the horizontal sliding rail (18).

9. The water glass quantitative discharging device for a production line according to claim 1, wherein: the ventilation mechanism comprises a first ventilation cavity (37) and a second ventilation cavity (38) which are arranged in the fixed plate (17) and are upward in opening, a ventilation hole (39) is formed in the fixed plate (17) and is transversely formed in the fixed plate (17), the quantity and the position of the first ventilation cavity (37) and the second ventilation cavity (38) correspond to those of a group of the bottom of the quantitative discharging machine (14), the mould bottle cap (22) and the infusion tube (21) correspond to each other, when the mould bottle cap (22) and the first ventilation cavity (37) are aligned, the infusion tube (21) and the second ventilation cavity (38) are aligned, a ventilation hole (39) is formed in the space between the first ventilation cavity (37) and the bottom of the corresponding ventilation cavity (38), a sealing plate sliding cavity (40) penetrating through the first ventilation cavity (37) and the sliding cloth (28) is transversely formed in the fixed plate (17), a sealing plate (41) is arranged in the sliding mode, and the quantity and the position of the sealing plate (41) penetrate up and down, and the sealing plate (41) can be correspondingly opened to the second ventilation cavity (38), and the ventilation hole (42) can be communicated with the first ventilation cavity (38).

10. The waterglass quantitative discharging apparatus for a production line according to claim 9, wherein: the sealing plate (41) is fixedly connected with a spring II (43) between the outward side of the sealing plate and the inner wall of the sliding cavity (40) of the sealing plate, the outward side of the sealing plate (41) is fixedly connected with a pull rope (44), and the pull rope (44) stretches out of the outside and is fixedly connected with an inner rod corresponding to a group of telescopic rods (15).