CN111498499A - Stable hydraulic equipment for glass production workshop - Google Patents

Abstract

The invention relates to a stable hydraulic device for a glass production workshop, which comprises a bottom plate, a supporting plate, a push rod and four rollers, the bottom plate is horizontally arranged, the rollers are uniformly arranged at the bottom of the bottom plate, the push rod is vertical to the bottom plate and is fixed at one side of the bottom plate, the supporting plate is parallel to and opposite to the bottom plate, the supporting plate is positioned on one side of the bottom plate far away from the roller, a hydraulic system is arranged between the supporting plate and the bottom plate, an auxiliary mechanism is arranged on the supporting plate, a cleaning mechanism is arranged at the bottom of the bottom plate and is positioned at one side of the roller far away from the axis of the push rod, this a stable form hydraulic equipment for glass workshop has reduced the possibility of glass landing through complementary unit, has improved stability, moreover, has realized the function of cleaing away subaerial impurity through clean mechanism, prevents that the roller from pressing impurity and producing to jolt and lead to glass to damage.

Description

Stable hydraulic equipment for glass production workshop

Technical Field

The invention relates to the field of hydraulic machinery, in particular to stable hydraulic equipment for a glass production workshop.

Background

Hydraulic machines are devices and tools that work by fluid energy, wherein a hydraulic vehicle is a type of hydraulic machine that, during use, lifts and lowers cargo by means of a hydraulic system.

Current hydraulic pressure car is carrying glass in-process, because of the glass surface is comparatively smooth, easily makes glass take place the landing and damage, has reduced stability, moreover, hydraulic pressure car is moving the in-process, when subaerial impurity appearing, the gyro wheel is pressed impurity and is made hydraulic pressure car produce jolt, easily makes glass receive vibrations and damages.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the defects of the prior art, a stable hydraulic device for a glass production workshop is provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: a stable hydraulic device for a glass production workshop comprises a bottom plate, a supporting plate, a push rod and four idler wheels, wherein the bottom plate is horizontally arranged, the idler wheels are uniformly arranged at the bottom of the bottom plate, the push rod is perpendicular to the bottom plate and is fixed on one side of the bottom plate, the supporting plate is parallel to the bottom plate and is arranged right opposite to the bottom plate, the supporting plate is positioned on one side of the bottom plate, which is far away from the idler wheels, a hydraulic system is arranged between the supporting plate and the bottom plate, an auxiliary mechanism is arranged on the supporting plate, a cleaning mechanism is arranged at the bottom of the bottom plate, and the cleaning mechanism is positioned;

the auxiliary mechanism comprises a blowing assembly and an adsorption assembly, the blowing assembly is positioned between the push rod and the supporting plate, and the adsorption assembly is arranged on the supporting plate;

the adsorption assembly comprises a fixed plate and at least four adsorption units, the fixed plate is parallel to the bottom plate and is positioned on one side of the bottom plate far away from the support plate, the fixed plate is fixedly connected with the bottom plate, and the adsorption units are distributed on the top of the fixed plate in a matrix manner;

the adsorption unit comprises a fixed pipe, a movable pipe, a first mounting hole and a second mounting hole, the first mounting hole is formed in the support plate, the second mounting hole is formed in the bottom plate, the fixed pipe is perpendicular to the bottom plate, the movable pipe and the fixed pipe are coaxially arranged, the top end of the movable pipe is inserted into the first mounting hole, the movable pipe is hermetically and fixedly connected with the inner wall of the first mounting hole, the bottom end of the movable pipe is inserted into the second mounting hole, the movable pipe is slidably connected with the inner wall of the second mounting hole, the top end of the movable pipe and the top of the support plate are located on the same plane, the bottom end of the fixed pipe is hermetically and fixedly connected with the top of the fixed plate, the top end of the fixed pipe is inserted into the movable pipe, and the fixed pipe and the inner wall of the movable pipe are slidably and hermetically connected;

the cleaning mechanism comprises a power assembly and a cleaning assembly, and the power assembly is arranged on one side of the cleaning assembly close to the axis of the push rod;

the cleaning assembly comprises a rotating shaft and two cleaning units, the rotating shaft is parallel to the bottom plate and is perpendicular to the push rod, the two cleaning assemblies are respectively arranged at two ends of the rotating shaft, and the power assembly is in transmission connection with the middle end of the rotating shaft;

the cleaning unit comprises a winding drum, a first bearing and at least two brushes, the winding drum is installed on the rotating shaft, the inner ring of the first bearing is installed on the rotating shaft, the outer ring of the first bearing is fixedly connected with the bottom plate, and the brushes are uniformly distributed on the cylindrical surface of the winding drum by taking the axis of the rotating shaft as the central axis.

Preferably, in order to realize the function of blowing, the blowing assembly comprises an extrusion pipe, a nozzle, a guide pipe and a one-way valve, the extrusion pipe is perpendicular to the bottom plate, the guide pipe and the extrusion pipe are coaxially arranged, the guide pipe is fixed on the push rod, the top end of the extrusion pipe is inserted into the bottom end of the guide pipe, the extrusion pipe is connected with the guide pipe in a sliding and sealing manner, the one-way valve is installed at the top end of the extrusion pipe and is located on one side, far away from the bottom plate, of the extrusion pipe, the bottom end of the extrusion pipe is fixedly connected with the supporting plate in a sealing manner, and the nozzle is installed on one side, close to the.

Preferably, in order to drive the transmission shaft to rotate, the power assembly comprises a power unit and an auxiliary unit, the power unit comprises a driving motor, a transmission shaft, a second bearing, a driving bevel gear, a driven bevel gear and a sealing plate, the driven bevel gear is installed on the rotation shaft, the transmission shaft is parallel to the bottom plate, the axis of the transmission shaft is perpendicular to and intersected with the axis of the rotation shaft, the driving bevel gear is installed at one end of the transmission shaft and meshed with the driven bevel gear, the driving motor is in transmission connection with the other end of the transmission shaft, the inner ring of the second bearing is installed on the transmission shaft, the outer ring of the second bearing is fixedly connected with the bottom plate, the sealing plate is perpendicular to the transmission shaft and located on one side, close to the axis of the push rod, of the.

Preferably, in order to enhance the cleaning effect of the support plate, the auxiliary unit includes an auxiliary tube, an air tube, a connection tube and fan blades, the connecting pipe is coaxially arranged with the transmission shaft and is positioned between the second bearing and the sealing plate, one end of the connecting pipe is hermetically and fixedly connected with the sealing plate, the fan blade and the driving motor are both positioned in the connecting pipe, the fan blade is arranged on the transmission shaft, the auxiliary pipe is parallel to the rotating shaft and positioned on one side of the supporting plate far away from the bottom plate, the supporting plate is positioned between the extrusion pipe and the auxiliary pipe, two ends of the auxiliary pipe are respectively sealed and fixedly connected with the supporting plate, one side of the auxiliary pipe close to the extrusion pipe is provided with at least two through holes which are uniformly distributed along the axis of the auxiliary pipe, the auxiliary pipe is communicated with the connecting pipe through an air pipe, and the joint of the air pipe and the connecting pipe is located between the fan blades and the driving motor.

Preferably, the drive motor is a servo motor in order to increase the drive force of the drive motor.

Preferably, the driving bevel gear is coated with a lubricating oil in order to reduce a frictional force between the driving bevel gear and the driven bevel gear.

Preferably, the auxiliary tube is made of rubber for achieving buffering and vibration reduction.

Preferably, in order to reduce the gap between the extruded tube and the guide tube, the junction of the extruded tube and the guide tube is coated with a sealing grease.

Preferably, in order to facilitate the installation of the extruded tube, the bottom end of the extruded tube is chamfered.

Preferably, in order to prolong the service life of the bottom plate, the bottom plate is provided with an anti-corrosion zinc coating.

The stable hydraulic equipment for the glass production workshop has the advantages that the possibility of glass sliding is reduced through the auxiliary mechanism, the stability is improved, compared with the existing auxiliary mechanism, the auxiliary mechanism can improve the sealing performance between the glass and the moving pipe by removing impurities on the supporting plate, the practicability is higher, the function of removing the impurities on the ground is realized through the cleaning mechanism, the glass damage caused by bumping caused by the fact that the roller presses the impurities is prevented, compared with the existing cleaning mechanism, the cleaning mechanism can accelerate the flow rate of air on the top of the supporting plate by conveying the air on the top of the supporting plate into the auxiliary pipe, the impurities are conveniently separated from the supporting plate under the action of wind power, and the cleaning effect of the impurities on the supporting plate is better.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the construction of a stabilized hydraulic apparatus for a glass manufacturing plant of the present invention;

FIG. 2 is a schematic diagram of the configuration of the adsorption unit of the stabilized hydraulic apparatus for a glass manufacturing plant of the present invention;

FIG. 3 is a schematic diagram of the cleaning assembly of the stabilized hydraulic apparatus for a glass manufacturing plant of the present invention;

FIG. 4 is a schematic diagram of the power assembly of the stabilized hydraulic apparatus for a glass manufacturing plant of the present invention;

in the figure: 1. the fan comprises a base plate, 2. a support plate, 3. a push rod, 4. a roller, 5. a fixing plate, 6. a fixing pipe, 7. a moving pipe, 8. a rotating shaft, 9. a winding drum, 10. a first bearing, 11. a brush, 12. an extrusion pipe, 13. a nozzle, 14. a guide pipe, 15. a one-way valve, 16. a driving motor, 17. a transmission shaft, 18. a second bearing, 19. a driving bevel gear, 20. a driven bevel gear, 21. a sealing plate, 22. an auxiliary pipe, 23. an air pipe, 24. a connecting pipe and 25. fan blades.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-2, a stable hydraulic device for a glass production workshop comprises a bottom plate 1, a support plate 2, a push rod 3 and four rollers 4, wherein the bottom plate 1 is horizontally arranged, the rollers 4 are uniformly arranged at the bottom of the bottom plate 1, the push rod 3 is perpendicular to the bottom plate 1 and is fixed at one side of the bottom plate 1, the support plate 2 is parallel to the bottom plate 1 and is arranged opposite to the bottom plate 1, the support plate 2 is positioned at one side of the bottom plate 1 away from the rollers 4, a hydraulic system is arranged between the support plate 2 and the bottom plate 1, an auxiliary mechanism is arranged on the support plate 2, a cleaning mechanism is arranged at the bottom of the bottom plate 1, and the cleaning mechanism is positioned at one side of the rollers 4;

the auxiliary mechanism comprises an air blowing assembly and an adsorption assembly, the air blowing assembly is positioned between the push rod 3 and the supporting plate 2, and the adsorption assembly is arranged on the supporting plate 2;

the adsorption assembly comprises a fixing plate 5 and at least four adsorption units, the fixing plate 5 is parallel to the bottom plate 1 and is positioned on one side of the bottom plate 1 far away from the support plate 2, the fixing plate 5 is fixedly connected with the bottom plate 1, and the adsorption units are distributed on the top of the fixing plate 5 in a matrix manner;

the adsorption unit comprises a fixed pipe 6, a movable pipe 7, a first mounting hole and a second mounting hole, the first mounting hole is arranged on the support plate 2, the second mounting hole is arranged on the bottom plate 1, the fixed tube 6 is vertical to the bottom plate 1, the movable tube 7 is coaxially arranged with the fixed tube 6, the top end of the moving pipe 7 is inserted into the first mounting hole, the moving pipe 7 is hermetically and fixedly connected with the inner wall of the first mounting hole, the bottom end of the moving pipe 7 is inserted into the second mounting hole, the moving pipe 7 is connected with the inner wall of the second mounting hole in a sliding way, the top end of the moving pipe 7 and the top of the supporting plate 2 are positioned on the same plane, the bottom end of the fixed pipe 6 is hermetically and fixedly connected with the top of the fixed plate 5, the top end of the fixed tube 6 is inserted into the movable tube 7, and the fixed tube 6 is connected with the inner wall of the movable tube 7 in a sliding and sealing manner;

the user pushes the push rod 3 to rotate the roller 4, so that the bottom plate 1 drives the support plate 2 to move to the lower part of the glass, and then, the supporting plate 2 is moved upwards through a hydraulic system, at the moment, impurities on the top of the supporting plate 2 can be moved towards the direction far away from the push rod 3 through the air blowing assembly and separated from the supporting plate 2, after the supporting plate 2 is abutted against the glass, through the continuous rising of the supporting plate 2, it can function to lift the glass, while it is in a sealed condition with the top end of the moving tube 7 when it abuts against the top of the supporting plate 2, the supporting plate 2 drives the moving pipe 7 to synchronously move by continuously moving the supporting plate 2 upwards, so that the air pressure in the moving pipe 7 can be reduced, the moving pipe 7 can adsorb glass under the action of air pressure, so that the possibility of glass sliding can be reduced, and the stability of moving glass is improved.

As shown in fig. 3, the cleaning mechanism comprises a power assembly and a cleaning assembly, wherein the power assembly is arranged on one side of the cleaning assembly close to the axis of the push rod 3;

the cleaning assembly comprises a rotating shaft 8 and two cleaning units, the rotating shaft 8 is parallel to the bottom plate 1, the rotating shaft 8 is perpendicular to the push rod 3, the two cleaning assemblies are respectively arranged at two ends of the rotating shaft 8, and the power assembly is in transmission connection with the middle end of the rotating shaft 8;

the cleaning unit comprises a winding drum 9, a first bearing 10 and at least two brushes 11, wherein the winding drum 9 is installed on a rotating shaft 8, an inner ring of the first bearing 10 is installed on the rotating shaft 8, an outer ring of the first bearing 10 is fixedly connected with the base plate 1, and the brushes 11 are uniformly distributed on a cylindrical surface of the winding drum 9 by taking the axis of the rotating shaft 8 as a central axis.

After glass adsorbs in backup pad 2, the user promotes push rod 3 and makes bottom plate 1 remove, and during, make axis of rotation 8 rotate under the supporting role of first bearing 10 through power component, and the rotation of axis of rotation 8 drives reel 9 and realizes synchronous rotation, and here, brush 11 can support with ground and lean on, thereby drive brush 11 through reel 9 and rotate and can push away subaerial impurity, prevent that gyro wheel 4 from pressing impurity and producing to jolt and lead to glass to damage.

Preferably, in order to realize the function of blowing, the blowing assembly comprises an extrusion tube 12, a nozzle 13, a guide tube 14 and a one-way valve 15, wherein the extrusion tube 12 is perpendicular to the bottom plate 1, the guide tube 14 is coaxially arranged with the extrusion tube 12, the guide tube 14 is fixed on the push rod 3, the top end of the extrusion tube 12 is inserted into the bottom end of the guide tube 14, the extrusion tube 12 is connected with the guide tube 14 in a sliding and sealing manner, the one-way valve 15 is installed at the top end in the guide tube 14 and is positioned at one side of the extrusion tube 12, which is far away from the bottom plate 1, the bottom end of the extrusion tube 12 is connected with the support plate 2 in a sealing and fixing manner, and the nozzle 13 is installed at one side of the extrusion.

When the supporting plate 2 moves upwards, the movement of the supporting plate 2 drives the extrusion pipe 12 to realize synchronous movement, and through the one-way characteristic of the one-way valve 15, air in the guide pipe 14 cannot be discharged from the top end of the guide pipe 14, so that the air in the extrusion pipe 12 and the air in the guide pipe 14 can be sprayed out from the nozzle 13 and act on the top of the supporting plate 2, and impurities on the top of the supporting plate 2 are separated from the supporting plate 2 under the action of air flow.

As shown in fig. 4, the power assembly includes a power unit including a driving motor 16, a transmission shaft 17, a second bearing 18, a driving bevel gear 19, a driven bevel gear 20, and a sealing plate 21, the driven bevel gear 20 is mounted on the rotating shaft 8, the transmission shaft 17 is parallel to the base plate 1, the axis of the transmission shaft 17 is perpendicular to and intersects with the axis of the rotating shaft 8, the driving bevel gear 19 is installed at one end of the transmission shaft 17 and is engaged with the driven bevel gear 20, the driving motor 16 is in transmission connection with the other end of the transmission shaft 17, the inner ring of the second bearing 18 is installed on the transmission shaft 17, the outer ring of the second bearing 18 is fixedly connected with the bottom plate 1, the sealing plate 21 is perpendicular to the transmission shaft 17 and is positioned on one side of the driving motor 16 close to the axis of the push rod 3, the sealing plate 21 is fixed on the base plate 1, and the driving motor 16 is fixed on the sealing plate 21.

Driving motor 16 starts, makes transmission shaft 17 rotate under the supporting role of second bearing 18, and the rotation of transmission shaft 17 drives transmission bevel gear through drive bevel gear 19 and rotates, and driven bevel gear 20's rotation drives axis of rotation 8 and rotates under the supporting role of first bearing 10, and during, can promote the velocity of flow of backup pad 2 top air through auxiliary unit, and then promote backup pad 2 top impurity and clear away the effect.

Preferably, in order to improve the cleaning effect of the support plate 2, the auxiliary unit includes an auxiliary tube 22, an air tube 23, a connecting tube 24 and a fan blade 25, the connecting tube 24 is coaxially disposed with the transmission shaft 17 and is located between the second bearing 18 and the sealing plate 21, one end of the connecting tube 24 is sealed and fixedly connected with the sealing plate 21, the fan blade 25 and the driving motor 16 are both located in the connecting tube 24, the fan blade 25 is mounted on the transmission shaft 17, the auxiliary tube 22 is parallel to the rotation shaft 8 and is located on one side of the support plate 2 away from the bottom plate 1, the support plate 2 is located between the extrusion tube 12 and the auxiliary tube 22, two ends of the auxiliary tube 22 are respectively sealed and fixedly connected with the support plate 2, one side of the auxiliary tube 22 close to the extrusion tube 12 is provided with at least two through holes, the through holes are uniformly distributed along the axis of the auxiliary tube 22, and the, the connection position of the air pipe 23 and the connecting pipe 24 is positioned between the fan blade 25 and the driving motor 16.

The rotation of transmission shaft 17 drives flabellum 25 and rotates to can make the air in the connecting pipe 24 discharge from the one end of keeping away from push rod 3 of connecting pipe 24, and the air in the auxiliary tube 22 then carries to the connecting pipe 24 in through trachea 23, the air at 2 tops of backup pad is carried to the auxiliary tube 22 in from the through hole, thereby can accelerate the velocity of flow of 2 top air of backup pad, be convenient for impurity under the wind-force effect with the separation of backup pad 2, promote 2 top of backup pad impurity and clear away the effect.

Preferably, the driving motor 16 is a servo motor in order to increase the driving force of the driving motor 16.

The servo motor has a characteristic of strong overload capability, so that the driving force of the driving motor 16 can be improved.

Preferably, the driving bevel gear 19 is coated with a lubricating oil in order to reduce the frictional force between the driving bevel gear 19 and the driven bevel gear 20.

The lubricating oil has the function of reducing the friction force between the driving bevel gear 19 and the driven bevel gear 20 and improving the smoothness of the driving bevel gear 19 driving the driven bevel gear 20 to rotate.

Preferably, the auxiliary tube 22 is made of rubber for achieving cushioning and vibration reduction.

When the glass atress at backup pad 2 top is too big and during moving towards keeping away from push rod 3 direction, can block glass through auxiliary tube 22, prevent the glass landing, further improved stability to, through the comparatively soft characteristics of rubber texture, the impact force that produces when can reduce glass and auxiliary tube 22 and support and lean on, realized the effect of buffering and damping.

Preferably, the junction of the extruded tube 12 and the conduit 14 is coated with a sealing grease in order to reduce the gap between the extruded tube 12 and the conduit 14.

The sealing grease functions to reduce the gap between the squeeze tube 12 and the guide tube 14, and improves the sealing property.

Preferably, in order to facilitate the installation of the extruded tube 12, the bottom end of the extruded tube 12 is chamfered.

The chamfer serves to reduce the diameter of the extruded tube 12 when inserted into the guide tube 14, providing ease of installation.

Preferably, in order to prolong the service life of the bottom plate 1, the bottom plate 1 is provided with an anti-corrosion zinc coating.

The function of anticorrosive zinc coating is the rust-resistant ability that promotes bottom plate 1, prolongs the life of bottom plate 1.

The user pushes the push rod 3 to rotate the roller 4, so that the bottom plate 1 drives the support plate 2 to move to the lower part of the glass, then the support plate 2 moves upwards through the hydraulic system, at the moment, the movement of the support plate 2 drives the extrusion pipe 12 to move synchronously, through the one-way characteristic of the one-way valve 15, the air in the guide pipe 14 cannot be discharged from the top end of the guide pipe 14, so that the air in the extrusion pipe 12 and in the guide pipe 14 can be sprayed out from the nozzle 13 and acts on the top part of the support plate 2, impurities on the top part of the support plate 2 are separated from the support plate 2 under the action of the air flow, after the support plate 2 abuts against the glass, the function of lifting the glass can be realized through the continuous rising of the support plate 2, during the period, when the glass abuts against the top part of the support plate 2, the glass and the top end of the moving pipe 7, so that the supporting plate 2 drives the moving pipe 7 to realize synchronous movement, thereby reducing the air pressure in the moving pipe 7, the moving pipe 7 can adsorb glass under the action of the air pressure, subsequently, the user pushes the push rod 3 to move the bottom plate 1, during the period, the driving motor 16 is started, the transmission shaft 17 rotates under the supporting action of the second bearing 18, the rotation of the transmission shaft 17 drives the transmission bevel gear to rotate through the driving bevel gear 19, the rotation of the driven bevel gear 20 drives the rotation shaft 8 to rotate under the supporting action of the first bearing 10, the rotation of the rotation shaft 8 drives the winding drum 9 to realize synchronous rotation, here, the brush 11 can be abutted against the ground, thereby the brush 11 is driven to rotate through the winding drum 9 to push away impurities on the ground, and the rotation of the transmission shaft 17 drives the fan blade 25 to rotate, thereby the air in the connecting pipe 24 can be discharged from the end of the connecting pipe 24 far away from the, the air in the auxiliary tube 22 is conveyed into the connecting tube 24 through the air tube 23, and the air at the top of the supporting plate 2 is conveyed into the auxiliary tube 22 from the through hole;

when the glass needs to be taken down from the support plate 2, the support plate 2 is lowered through a hydraulic system, the support plate 2 is lowered to drive the moving pipe 7 to move synchronously, so that the air pressure in the moving pipe 7 can be increased, the moving pipe 7 stops adsorbing the glass, the glass can be separated from the support plate 2, and the air outside the guide pipe 14 is conveyed into the guide pipe 14 from the top end of the guide pipe 14;

here, act on backup pad 2 through blowout exhaust air, can realize cleaing away the function of 2 top of backup pad impurity, and, through carrying the air at backup pad 2 top to auxiliary tube 22 in from the through-hole, can accelerate the velocity of flow of 2 top of backup pad air, be convenient for impurity and backup pad 2 separation under the wind-force effect, promote 2 top of backup pad impurity removal effect, through cleaing away the impurity on backup pad 2, can prevent that impurity from influencing the leakproofness between glass and the removal pipe 7, the reliability of removing pipe 7 absorption glass has been improved, and, adsorb glass through removing pipe 7, can reduce the possibility of glass landing, the stability of removing glass has been improved, and simultaneously, it pushes away subaerial impurity to rotate through brush 11, prevent that gyro wheel 4 from pressing impurity and producing jolt and lead to glass to damage.

Compared with the prior art, this a stable form hydraulic equipment for glass workshop has reduced the possibility of glass landing through complementary unit, stability is improved, compare with current complementary unit, this complementary unit is through cleaing away the impurity on backup pad 2, can improve glass and the leakproofness between the removal pipe 7, the practicality is stronger, moreover, still realize the function of cleaing away subaerial impurity through clean mechanism, prevent that gyro wheel 4 from pressing impurity and producing to jolt and lead to glass to damage, compare with current clean mechanism, this clean mechanism is through carrying the air at backup pad 2 top to the auxiliary tube 22 in, can accelerate the velocity of flow of backup pad 2 top air, be convenient for impurity and backup pad 2 separation under the wind-force effect, the clean effect of impurity is better on backup pad 2.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The stable hydraulic equipment for the glass production workshop comprises a bottom plate (1), a supporting plate (2), a push rod (3) and four rollers (4), wherein the bottom plate (1) is horizontally arranged, the rollers (4) are uniformly arranged at the bottom of the bottom plate (1), the push rod (3) is perpendicular to the bottom plate (1) and is fixed on one side of the bottom plate (1), the supporting plate (2) is parallel to the bottom plate (1) and is just opposite to the bottom plate, the supporting plate (2) is positioned on one side, away from the rollers (4), of the bottom plate (1), a hydraulic system is arranged between the supporting plate (2) and the bottom plate (1), the stable hydraulic equipment is characterized in that an auxiliary mechanism is arranged on the supporting plate (2), a cleaning mechanism is arranged at the bottom of the bottom plate (1), and the cleaning mechanism is positioned on one side, away from the axis of the push rod (3;

the auxiliary mechanism comprises a blowing assembly and an adsorption assembly, the blowing assembly is positioned between the push rod (3) and the supporting plate (2), and the adsorption assembly is arranged on the supporting plate (2);

the adsorption assembly comprises a fixing plate (5) and at least four adsorption units, the fixing plate (5) is parallel to the bottom plate (1) and is positioned on one side, far away from the support plate (2), of the bottom plate (1), the fixing plate (5) is fixedly connected with the bottom plate (1), and the adsorption units are distributed on the top of the fixing plate (5) in a matrix manner;

the adsorption unit comprises a fixed pipe (6), a movable pipe (7), a first mounting hole and a second mounting hole, the first mounting hole is formed in the support plate (2), the second mounting hole is formed in the bottom plate (1), the fixed pipe (6) is perpendicular to the bottom plate (1), the movable pipe (7) and the fixed pipe (6) are coaxially arranged, the top end of the movable pipe (7) is inserted into the first mounting hole, the movable pipe (7) is hermetically and fixedly connected with the inner wall of the first mounting hole, the bottom end of the movable pipe (7) is inserted into the second mounting hole, the movable pipe (7) is slidably connected with the inner wall of the second mounting hole, the top end of the movable pipe (7) and the top of the support plate (2) are in the same plane, the bottom end of the fixed pipe (6) and the top of the fixed plate (5) are hermetically and fixedly connected, the top end of the fixed pipe (6) is inserted into the movable pipe (7), the fixed pipe (6) is connected with the inner wall of the movable pipe (7) in a sliding and sealing way;

the cleaning mechanism comprises a power assembly and a cleaning assembly, and the power assembly is arranged on one side of the cleaning assembly close to the axis of the push rod (3);

the cleaning assembly comprises a rotating shaft (8) and two cleaning units, the rotating shaft (8) is parallel to the bottom plate (1), the rotating shaft (8) is perpendicular to the push rod (3), the two cleaning assemblies are respectively arranged at two ends of the rotating shaft (8), and the power assembly is in transmission connection with the middle end of the rotating shaft (8);

the cleaning unit comprises a winding drum (9), a first bearing (10) and at least two brushes (11), the winding drum (9) is installed on the rotating shaft (8), the inner ring of the first bearing (10) is installed on the rotating shaft (8), the outer ring of the first bearing (10) is fixedly connected with the bottom plate (1), and the brushes (11) are uniformly distributed on the cylindrical surface of the winding drum (9) by taking the axis of the rotating shaft (8) as the central axis.

2. A stabilized hydraulic apparatus for a glass production plant according to claim 1, the blowing assembly comprises an extrusion pipe (12), a nozzle (13), a guide pipe (14) and a one-way valve (15), the extrusion pipe (12) is vertical to the bottom plate (1), the guide pipe (14) and the extrusion pipe (12) are coaxially arranged, the guide tube (14) is fixed on the push rod (3), the top end of the extrusion tube (12) is inserted into the bottom end of the guide tube (14), the extrusion pipe (12) is connected with the guide pipe (14) in a sliding and sealing way, the one-way valve (15) is arranged at the top end in the guide pipe (14) and is positioned at one side of the extrusion pipe (12) far away from the bottom plate (1), the bottom end of the extrusion pipe (12) is sealed and fixedly connected with the supporting plate (2), the nozzle (13) is arranged on one side of the extrusion pipe (12) close to the support plate (2) and is arranged towards the support plate (2).

3. The stabilized hydraulic apparatus for a glass manufacturing plant according to claim 1, wherein the power assembly includes a power unit and an auxiliary unit, the power unit includes a driving motor (16), a transmission shaft (17), a second bearing (18), a driving bevel gear (19), a driven bevel gear (20) and a sealing plate (21), the driven bevel gear (20) is installed on the rotating shaft (8), the transmission shaft (17) is parallel to the base plate (1), the axis of the transmission shaft (17) is perpendicular to and intersects with the axis of the rotating shaft (8), the driving bevel gear (19) is installed at one end of the transmission shaft (17) and is engaged with the driven bevel gear (20), the driving motor (16) is in driving connection with the other end of the transmission shaft (17), the inner ring of the second bearing (18) is installed on the transmission shaft (17), and the outer ring of the second bearing (18) is fixedly connected with the base plate (1), the sealing plate (21) is perpendicular to the transmission shaft (17) and located on one side, close to the axis of the push rod (3), of the driving motor (16), the sealing plate (21) is fixed on the bottom plate (1), and the driving motor (16) is fixed on the sealing plate (21).

4. A stabilized hydraulic apparatus for a glass production plant according to claim 3, characterized in that the auxiliary unit comprises an auxiliary tube (22), an air tube (23), a connecting tube (24) and a fan blade (25), the connecting tube (24) is arranged coaxially with the drive shaft (17) and is located between the second bearing (18) and the sealing plate (21), one end of the connecting tube (24) is hermetically and fixedly connected with the sealing plate (21), the fan blade (25) and the driving motor (16) are both located in the connecting tube (24), the fan blade (25) is mounted on the drive shaft (17), the auxiliary tube (22) is parallel to the rotation shaft (8) and is located on the side of the support plate (2) away from the base plate (1), the support plate (2) is located between the extrusion tube (12) and the auxiliary tube (22), and both ends of the auxiliary tube (22) are hermetically and fixedly connected with the support plate (2) respectively, one side of the auxiliary pipe (22) close to the extrusion pipe (12) is provided with at least two through holes, the through holes are uniformly distributed along the axis of the auxiliary pipe (22), the auxiliary pipe (22) is communicated with a connecting pipe (24) through an air pipe (23), and the joint of the air pipe (23) and the connecting pipe (24) is positioned between the fan blades (25) and the driving motor (16).

5. A stabilized hydraulic apparatus for a glass production plant according to claim 3, characterized in that the drive motor (16) is a servo motor.

6. A stabilized hydraulic apparatus for a glass production plant according to claim 3, characterized in that the drive bevel gear (19) is coated with a lubricating oil.

7. A stabilized hydraulic apparatus for a glass production plant according to claim 3, characterized in that the auxiliary tube (22) is made of rubber.

8. A stabilized hydraulic apparatus for a glass production plant according to claim 1, characterized in that the junction of the extruded tube (12) and the conduit (14) is coated with a sealing grease.

9. The stabilized hydraulic apparatus for a glass production plant according to claim 1, characterized in that the bottom end of the extruded tube (12) is chamfered.

10. A stabilized hydraulic equipment for glass production plants according to claim 1, characterized in that the base plate (1) is provided with an anti-corrosion zinc coating.

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