CN117162318B - Raw material defoaming device for protective glove production - Google Patents

Abstract

The invention provides a raw material defoaming device for producing protective gloves, which relates to the technical field of glove material conveying and defoaming and comprises a storage mounting piece, wherein four swing auxiliary pieces are arranged on the storage mounting piece; the swing auxiliary piece is characterized in that the four swing auxiliary pieces are of symmetrical structures; the four swing auxiliary pieces are respectively fixedly connected with a turbulence auxiliary piece; the material storage mounting piece is provided with a lifting control device; a movable connecting piece is fixedly welded on the lifting control device; the movable connecting piece is provided with a lifting connecting piece; the foam removing quality can be guaranteed, foam can be removed rapidly, the problem that air is introduced and exchanged in the process of discharging raw materials through the suction pump is solved when the traditional production and conveying mode relying on suction of the suction pump can produce bubbles secondarily is solved, and the problem that natural foam removing or vacuum suction mode is usually adopted for removing foam at present.

Description

Raw material defoaming device for protective glove production

Technical Field

The invention relates to the technical field of glove material conveying and defoaming, in particular to a raw material defoaming device for producing protective gloves.

Background

The glove product taking polyvinyl chloride as the main raw material is usually called PVC glove, the polyvinyl chloride is a common plastic material and has antistatic property, in the actual PVC glove production and processing work, a large amount of bubbles are generated because of the mixing work aiming at the raw material, especially the polyvinyl chloride also has sticky characteristic, the molding quality is directly influenced if the polyvinyl chloride is directly led out, the hollowness of the glove rubber surface is caused, the glove performance is directly influenced, the bubble is removed by adopting a natural defoaming or vacuum suction mode through a bubble removing agent at present, the air is introduced and ventilated in the raw material discharge through a suction pump, the bubbles are generated, the piston pushing and the discharge are not convenient, meanwhile, the problem that the bubble removing structure is not accelerated, the removal efficiency is low, the valve is not convenient to dredge, the blocking is easy to form early and the like is solved.

Disclosure of Invention

In view of the above, the invention provides a raw material defoaming device for producing protective gloves, which is provided with a movable connecting piece, so that on one hand, vacuum suction can be assisted, foam removal quality can be ensured, a mode of assisting in utilizing piston extrusion can be realized while defoaming can be performed rapidly, direct discharge can be realized while avoiding secondary generation of bubbles in the traditional production and conveying mode depending on suction pump suction, and the foam-free holding effect of a structure is effectively improved.

The invention provides a raw material defoaming device for producing protective gloves, which particularly comprises a storage mounting piece, wherein four swing auxiliary pieces are arranged on the storage mounting piece; the four swing auxiliary parts are of symmetrical structures; the four swing auxiliary pieces are respectively fixedly connected with a turbulence auxiliary piece; the material storage mounting piece is provided with a lifting control device; a movable connecting piece is fixedly welded on the lifting control device; the movable connecting piece is provided with a lifting connecting piece; an auxiliary anti-blocking dredging plug connector is sleeved in the lifting connecting piece; the side surface of the lifting control device is connected with the movable connecting piece in a pipe joint way; the stock mount includes: the automatic material discharging device comprises a hanging installation auxiliary material storing sealing installation box, a rotation installation seat, a discharging installation pipe, a discharging auxiliary control ball valve, a driving motor and an installation auxiliary plate, wherein the hanging installation auxiliary material storing sealing installation box is welded with two rotation installation seats; the bottom of the suspension installation auxiliary storage sealing installation box is fixedly connected with an emission installation pipe; the discharge installation pipe is provided with a discharge auxiliary control ball valve; the two driving motors are respectively arranged on the side surface of the hanging installation auxiliary storage sealing installation box; the output shaft rotating rods of the two driving motors are connected to the two rotating mounting seats; the installation auxiliary plate is welded at the top of the suspension installation auxiliary storage sealing installation box, and a row of through holes are formed in the installation auxiliary plate.

Further, the lifting connection member includes: the lifting connection electric push rod, the sliding mounting column and the plugging connecting column are fixedly sleeved on the lifting control suction auxiliary mounting cylinder; the output shaft of the lifting connection electric push rod is fixedly connected with a sliding mounting column, and the sliding mounting column is connected to the lifting control suction auxiliary mounting cylinder in a sliding manner; the bottom of the sliding mounting column is welded with a plugging connecting column which is connected to the suction limiting hole in a sliding manner.

Further, the mobile connector further comprises: the connecting suction pipe is connected to the lifting control suction auxiliary mounting cylinder; the other end of the connecting suction pipe is connected with a vacuum suction machine which is connected to the lifting adaptive sealing connection piston plate through a bolt; the vacuum suction machine is externally connected with a control power supply; the vacuum suction machine is communicated with the suction limiting hole.

Further, the elevation control apparatus includes: the lifting control installation hydraulic cylinders, the lifting control plate frame and the lifting control suction auxiliary installation cylinder are arranged, and the two lifting control installation hydraulic cylinders are respectively arranged on two side surfaces of the hanging installation auxiliary storage sealing installation box; the lifting control plate frames are fixedly welded on the output shafts of the two lifting control installation hydraulic cylinders; the bottom of the lifting control plate frame is fixedly welded with a lifting control suction auxiliary mounting cylinder, and a slotted hole is formed in the lifting control suction auxiliary mounting cylinder.

Further, the mobile connector includes: the lifting adaptive sealing connection piston plate is sleeved and embedded with the sealing connection rubber ring; the sealing connection rubber ring is attached to the inner side of the hanging installation auxiliary storage sealing installation box; the lifting adaptive sealing connection piston plate is sleeved on the hanging installation auxiliary storage sealing installation box; the lifting adaptive sealing connection piston plate is fixedly welded at the bottom of the lifting control suction auxiliary mounting cylinder; the four fitting and installing butt joint grooves are respectively formed in the lifting adaptive sealing connection piston plate; the four fitting and mounting butt joint grooves are aligned with the four swing auxiliary mounting bubble removal cylinders respectively; the suction limiting hole is formed in the lifting adaptive sealing connection piston plate; the suction connecting hole is formed in the lifting adaptive sealing connection piston plate; the suction connecting hole is communicated with the suction limiting hole and the lifting control suction auxiliary mounting cylinder; and a heating plate externally connected with a power supply is arranged at the bottom of the suspension installation auxiliary storage sealing installation box.

Further, supplementary anti-blocking dredging plug connector includes: the anti-blocking connecting electric push rod and the telescopic dredging column are connected, and the telescopic dredging column is welded on an output shaft of the anti-blocking connecting electric push rod; the anti-blocking connection electric push rod is sleeved inside the plugging and blocking connection column; the telescopic dredging column is connected inside the plugging connecting column in a sliding manner; the telescopic dredging column is aligned with a discharge mounting pipe provided with a discharge auxiliary control ball valve.

Further, the turbulence auxiliary member includes: the vortex rotating column is rotationally sleeved on the swing auxiliary mounting bubble removal cylinder; a turbulence auxiliary auger is fixedly welded on the turbulence rotating column; the turbulence auxiliary auger is sleeved inside the swing auxiliary installation bubble removal cylinder.

Further, the stock mount further comprises: the two support auxiliary legs are welded on the inner side of the suspension installation auxiliary storage sealing installation box respectively; rubber pads are respectively stuck on the two supporting auxiliary legs.

Further, the turbulence auxiliary member further comprises: the driving installation motor is fixedly sleeved in the swing auxiliary installation bubble removal cylinder; a turbulent flow rotating column is arranged on an output shaft of the drive installation motor; the drive motor is externally connected with a control power supply.

Further, the swing aid includes: the device comprises a swing auxiliary installation bubble removal cylinder and a rotating connecting block, wherein the rotating connecting block is fixedly welded on the swing auxiliary installation bubble removal cylinder and fixedly sleeved on an output shaft of a driving motor; the two sides of the rotary connecting block are respectively attached to the rotary mounting seat; the swing auxiliary installation bubble removal cylinder is internally provided with a slotted hole.

Compared with the prior art, the invention has the following beneficial effects:

through the mobile connection spare that adopts the setting, can realize assisting vacuum suction bubble removal work, can effectually guarantee the bubble removal effect, the vacuum bubble removal is more efficient, through the lift connecting piece that adopts the setting, can realize supplementary quick shutoff control, the control structure that this structure adopted is compared traditional valve, can avoid plastic material to remain, can guarantee sustainable use, through the lift control device that adopts the setting, can realize supplementary lift control work, can realize supplementary slip regulation, overall structure is simpler, can realize assisting piston structure and impel the work, the structure is more reasonable, need not to carry again through conveying structures such as the pump body and lead to producing the bubble once more.

In addition, the vortex auxiliary member that sets up can realize assisting to carry out vortex control work, adopts auger structure, can realize assisting to mix supplementary vortex, increases the liquid velocity of flow, improves except that the bubble effect, can not increase the bubble like the mode of traditional stirring on the contrary, through adopting the swing auxiliary member, can realize dwang luffing motion, can assist to break out the bubble, further improves except that the bubble effect.

In addition, through the supplementary anti-blocking dredging plug connector that adopts the setting, can realize assisting to prevent stifled dredging work, control method is simple, especially uses in the plastic materials, and it is poor to flow nature itself, if there is the unequal hard lump impurity of mixing, very easily takes place to block up, this structure is more reasonable practical, the reliability of effectual improvement structure.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 is a schematic diagram showing the overall structure of a deaeration apparatus according to the present invention.

FIG. 2 is a schematic diagram showing the internal structure of the deaeration apparatus according to the present invention.

FIG. 3 is a sectional view showing the internal structure of the deaeration apparatus according to the present invention.

FIG. 4 is a schematic view of the storage mounting of the present invention.

Fig. 5 is a partial cross-sectional view of the internal structure of the stock mount of the present invention.

FIG. 6 is a schematic view of the turbulence assist member of the present invention.

Fig. 7 is a schematic view of the structure of the lift control device of the present invention.

Fig. 8 is a schematic view of the structure of the mobile connector of the present invention.

Fig. 9 is a schematic view of a lifting connector according to the present invention.

Fig. 10 is a partial cross-sectional view of the internal structure of the lifting connection of the present invention.

Fig. 11 is a schematic view of the internal structure of the mobile connector of the present invention.

List of reference numerals

1. A storage mounting member; 101. hanging and installing auxiliary storage sealing installation boxes; 1011. rotating the mounting seat; 102. discharging the mounting tube; 103. discharging auxiliary control ball valve; 104. a driving motor; 105. installing an auxiliary plate; 106. supporting auxiliary legs; 2. a swing auxiliary; 201. the swing auxiliary installation bubble removing cylinder; 2011. rotating the connecting block; 3. turbulence aids; 301. a turbulent flow rotating column; 302. turbulence auxiliary auger; 303. driving and installing a motor; 4. a lifting control device; 401. lifting control is provided with a hydraulic cylinder; 402. lifting control board frame; 403. lifting control suction auxiliary mounting cylinder; 5. a movable connecting piece; 501. the lifting adaptive seal is connected with the piston plate; 5011. sealing and connecting a rubber ring; 5012. fitting and installing a butt joint groove; 5013. a suction limiting hole; 5014. a suction connection hole; 502. connecting a suction pipe; 503. a vacuum extractor; 6. lifting the connecting piece; 601. the lifting connection is used for connecting with an electric push rod; 602. a sliding mounting column; 603. plugging the connecting column; 7. auxiliary anti-blocking dredging plug connector; 701. the anti-blocking device is connected with an electric push rod; 702. and (5) telescoping a dredging column.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Embodiment one: please refer to fig. 1 to 11:

the invention provides a raw material defoaming device for producing protective gloves, which comprises a storage mounting piece 1, wherein four swing auxiliary pieces 2 are arranged on the storage mounting piece 1; the four swing auxiliary pieces 2 are of symmetrical structures; the four swing auxiliary pieces 2 are respectively fixedly connected with a turbulence auxiliary piece 3; the material storage mounting piece 1 is provided with a lifting control device 4; the lifting control device 4 is fixedly welded with a movable connecting piece 5; the movable connecting piece 5 is provided with a lifting connecting piece 6; the lifting connecting piece 6 is internally sleeved with an auxiliary anti-blocking dredging plug connector 7; the side surface of the lifting control device 4 is connected with the movable connecting piece 5 in a pipe joint way; the stock mount 1 comprises: the device comprises a hanging installation auxiliary storage sealing installation box 101, a rotating installation seat 1011, a discharge installation pipe 102, a discharge auxiliary control ball valve 103, a driving motor 104 and an installation auxiliary plate 105, wherein two rotating installation seats 1011 are welded on the hanging installation auxiliary storage sealing installation box 101; the bottom of the suspension installation auxiliary storage sealing installation box 101 is fixedly connected with a discharge installation pipe 102; the discharge installation pipe 102 is provided with a discharge auxiliary control ball valve 103; the two driving motors 104 are arranged, and the two driving motors 104 are respectively arranged on the side surface of the hanging installation auxiliary storage sealing installation box 101; the output shaft rotating rods of the two driving motors 104 are connected to the two rotating mounting seats 1011; the mounting auxiliary plate 105 is welded on the top of the hanging mounting auxiliary storage sealed mounting box 101, and a row of through holes are arranged on the mounting auxiliary plate 105.

Wherein, the storage mount 1 further comprises: the two support auxiliary legs 106 are arranged, and the two support auxiliary legs 106 are respectively welded on the inner side of the suspension installation auxiliary storage sealing installation box 101; rubber pads are respectively stuck on the two supporting auxiliary legs 106; the swing aid 2 includes: the swing auxiliary installation bubble removal cylinder 201 and the rotating connecting block 2011, wherein the rotating connecting block 2011 is fixedly welded on the swing auxiliary installation bubble removal cylinder 201, and the rotating connecting block 2011 is fixedly sleeved on an output shaft of the driving motor 104; two sides of the rotary connecting block 2011 are respectively attached to the rotary mounting seat 1011; a slotted hole is formed in the swing auxiliary installation bubble removal cylinder 201; the turbulence auxiliary 3 comprises: the vortex rotating column 301 and the vortex auxiliary auger 302 are rotatably sleeved on the swing auxiliary installation bubble removal cylinder 201; a turbulence auxiliary auger 302 is fixedly welded on the turbulence rotating column 301; the turbulence auxiliary auger 302 is sleeved inside the swing auxiliary installation foam removal cylinder 201; the turbulence auxiliary 3 further comprises: the driving installation motor 303, the driving installation motor 303 is fixedly sleeved in the swing auxiliary installation bubble removal cylinder 201; a turbulent flow rotating column 301 is arranged on the output shaft of the drive installation motor 303; the external control power supply of drive installation motor 303, the supplementary vortex control work that carries out of vortex can be realized to vortex auxiliary part 3, adopt the auger structure, can realize supplementary vortex that mixes, increase the liquid velocity of flow, swing auxiliary part 2 can realize the dwang swing from top to bottom, can assist in breaking the bubble, further improve the bubble removal effect, especially in the reply plastic viscous material, it is more practical, adopt storage installed part 1 installation more nimble, supplementary installation of swing removes bubble section of thick bamboo 201 and slowly rotates, supplementary bubble removal, supplementary auger 302 of vortex rotates, realize supplementary carrying out vortex acceleration work, promote the bubble removal.

Wherein, the lifting control device 4 comprises: the lifting control installation hydraulic cylinders 401, the lifting control plate frame 402 and the lifting control suction auxiliary installation cylinder 403 are arranged, the number of the lifting control installation hydraulic cylinders 401 is two, and the two lifting control installation hydraulic cylinders 401 are respectively arranged on two side surfaces of the hanging installation auxiliary storage sealing installation box 101; the lifting control plate frames 402 are fixedly welded on the output shafts of the two lifting control installation hydraulic cylinders 401; the bottom of the lifting control plate frame 402 is fixedly welded with a lifting control suction auxiliary mounting cylinder 403, and a slotted hole is arranged on the lifting control suction auxiliary mounting cylinder 403; the mobile connection 5 comprises: the lifting fit sealing connection piston plate 501, the sealing connection rubber ring 5011, the fitting and mounting butt joint groove 5012, the suction limiting hole 5013 and the suction connection hole 5014 are sleeved and embedded with the sealing connection rubber ring 5011; the sealing connection rubber ring 5011 is attached to the inner side of the hanging installation auxiliary storage sealing installation box 101; the lifting adaptive sealing connection piston plate 501 is sleeved on the hanging installation auxiliary storage sealing installation box 101; the lifting adaptive sealing connection piston plate 501 is fixedly welded at the bottom of the lifting control suction auxiliary mounting cylinder 403; the four attaching and mounting butt joint grooves 5012 are arranged, and the four attaching and mounting butt joint grooves 5012 are respectively arranged on the lifting adaptive sealing connection piston plate 501; the four fitting and mounting docking slots 5012 are aligned with the four swing-assisted mounting bubble removal cylinders 201, respectively; the suction limiting hole 5013 is arranged on the lifting adaptive sealing connection piston plate 501; the suction connecting hole 5014 is arranged on the lifting adaptive sealing connecting piston plate 501; the suction connection hole 5014 communicates the suction limiting hole 5013 with the lift control suction auxiliary mounting cylinder 403; a heating plate externally connected with a power supply is arranged at the bottom of the hanging installation auxiliary storage sealing installation box 101; the mobile connection 5 further comprises: a connection suction pipe 502 and a vacuum suction machine 503, the connection suction pipe 502 being connected to the elevation control suction auxiliary mounting cylinder 403; the other end of the connecting suction pipe 502 is connected with a vacuum suction machine 503, and the vacuum suction machine 503 is connected on the lifting adaptive sealing connecting piston plate 501 through bolts; the vacuum pump 503 is externally connected with a control power supply; the vacuum suction machine 503 is communicated with the suction limiting hole 5013; the lifting connection 6 comprises: the lifting connection electric push rod 601, the sliding mounting column 602 and the plugging connection column 603 are fixedly sleeved on the lifting control suction auxiliary mounting cylinder 403; the output shaft of the lifting connection electric push rod 601 is fixedly connected with a sliding mounting column 602, and the sliding mounting column 602 is connected on the lifting control suction auxiliary mounting cylinder 403 in a sliding manner; the sliding mounting post 602 bottom welding has grafting shutoff spliced pole 603, and grafting shutoff spliced pole 603 sliding connection is on the spacing hole 5013 of suction, through the removal connecting piece 5 that adopts the setting, can effectually guarantee to remove the bubble effect, the vacuum removes bubble more high-efficient, through the lift controlling means 4 that adopts the setting, can realize supplementary slip regulation, overall structure is simpler, can realize supplementary piston structure propelling movement work, the structure is more reasonable, avoid producing the bubble once more, through can assisting the realization vacuum suction, can guarantee to remove bubble quality, can realize supplementary utilization piston extrusion's mode in the time of can removing foam fast, can realize direct discharge when having avoided traditional production to carry the mode of relying on suction pump suction, effectually improved the bubble-free of structure keeps the effect, through the lift connecting piece 6 that adopts the setting, can realize supplementary high-efficient control work, through after the suction is accomplished, can drive grafting spliced pole 603 moves down and seals, it moves down to control the supplementary suction mounting cylinder 401 through the lift control and drives the supplementary cylinder 403 and moves down, it moves down the piston plate 501, realize the sealing connection, can keep the practical effect, the realization is simple ticket is realized.

Embodiment two: on the basis of the first embodiment, the auxiliary anti-blocking dredging plug connector 7 includes: the anti-blocking connecting electric push rod 701 and the telescopic dredging column 702 are connected, and the telescopic dredging column 702 is welded on the output shaft of the anti-blocking connecting electric push rod 701; the anti-blocking connection electric push rod 701 is sleeved inside the plugging connection column 603; the telescopic dredging column 702 is connected inside the plugging connecting column 603 in a sliding manner; the flexible mediation post 702 aligns with the emission installation tube 102 of installing the supplementary control ball valve 103 of arranging, prevents blocking up mediation plug connector 7 through the supplementary that adopts the setting, especially uses in the plastic materials, and is itself poor in fluidity, if there is the unequal hard lump impurity of mixing, very easily takes place to block up, can realize quick mediation, prolongs maintenance cycle, and is more practical, can realize the effect of supplementary control mediation through adopting under the drive of preventing blocking up connecting electric putter 701, and is more practical.

Specific use and action of the embodiment: according to the invention, firstly, the auxiliary plate 105 is mounted on a wall through a bolt, plastic raw materials are led into the suspended mounting auxiliary storage sealing mounting box 101, the electric push rod 601 is connected in a lifting manner to control the plug connecting column 603 to be separated from the suction limiting hole 5013, at the moment, the vacuum suction machine 503 can perform vacuum suction operation, the swing auxiliary mounting foam removing cylinder 201 on the rotary connecting block 2011 is driven by the driving motor 104 to slowly rotate to assist foam removal, the vortex rotating column 301 and the vortex auxiliary auger 302 are driven by the driving motor 303 to rotate to assist in performing vortex acceleration operation, the plug connecting column 603 can be driven to move downwards to be closed after suction is completed, the lifting control mounting hydraulic cylinder 401 is driven to control the suction auxiliary mounting cylinder 403 to move downwards to drive the lifting adaptive sealing connecting piston plate 501 to move downwards, the piston ball valve 103 is opened to realize that the pushing material is discharged through the discharge mounting 102 in a negative pressure suction operation, and the ball valve 701 is driven to drive the plug connecting cylinder to move downwards to realize driving the auxiliary control foam removing column to perform auxiliary dredging operation, and the auxiliary dredging control effect is realized.

The foregoing is merely exemplary embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (5)

1. The raw material defoaming device for producing the protective gloves comprises a storage mounting piece (1), wherein four swing auxiliary pieces (2) are arranged on the storage mounting piece (1); the swing auxiliary device is characterized in that the four swing auxiliary pieces (2) are of symmetrical structures; the four swing auxiliary pieces (2) are respectively fixedly connected with a turbulence auxiliary piece (3); a lifting control device (4) is arranged on the storage mounting piece (1); a movable connecting piece (5) is fixedly welded on the lifting control device (4); the lifting connecting piece (6) is arranged on the movable connecting piece (5); an auxiliary anti-blocking dredging plug connector (7) is sleeved in the lifting connecting piece (6); the side surface of the lifting control device (4) is connected with the movable connecting piece (5); the stock mount (1) comprises: the automatic material discharging device comprises a hanging installation auxiliary material storing sealing installation box (101), a rotating installation seat (1011), a discharging installation pipe (102), a discharging auxiliary control ball valve (103), a driving motor (104) and an installation auxiliary plate (105), wherein two rotating installation seats (1011) are welded on the hanging installation auxiliary material storing sealing installation box (101); the bottom of the suspension installation auxiliary storage sealing installation box (101) is fixedly connected with an emission installation pipe (102); the discharge installation pipe (102) is provided with a discharge auxiliary control ball valve (103); the two driving motors (104) are arranged, and the two driving motors (104) are respectively arranged on the side surfaces of the hanging installation auxiliary storage sealing installation box (101); the output shaft rotating rods of the two driving motors (104) are connected to the two rotating mounting seats (1011); the installation auxiliary plate (105) is welded at the top of the suspension installation auxiliary storage sealing installation box (101), and a row of through holes are formed in the installation auxiliary plate (105);

the swing aid (2) comprises: the device comprises a swing auxiliary installation bubble removal cylinder (201) and a rotation connection block (2011), wherein the rotation connection block (2011) is fixedly welded on the swing auxiliary installation bubble removal cylinder (201), and the rotation connection block (2011) is fixedly sleeved on an output shaft of a driving motor (104); two sides of the rotary connecting block (2011) are respectively attached to the rotary mounting seat (1011); a slotted hole is formed in the swing auxiliary mounting bubble removal cylinder (201);

the turbulence auxiliary (3) comprises: the vortex rotating column (301) and the vortex auxiliary auger (302) are rotatably sleeved on the swing auxiliary mounting foam removing cylinder (201); a turbulence auxiliary auger (302) is fixedly welded on the turbulence rotating column (301); the turbulence auxiliary auger (302) is sleeved in the swing auxiliary installation foam removing cylinder (201);

the turbulence auxiliary (3) further comprises: the driving installation motor (303), the driving installation motor (303) is fixedly sleeved in the swing auxiliary installation bubble removal cylinder (201); a turbulent flow rotating column (301) is arranged on an output shaft of the drive installation motor (303); the drive installation motor (303) is externally connected with a control power supply;

the lifting connection (6) comprises: the lifting connection electric push rod (601), the sliding mounting column (602) and the plugging connection column (603) are fixedly sleeved on the lifting control suction auxiliary mounting cylinder (403); the output shaft of the lifting connection electric push rod (601) is fixedly connected with a sliding mounting column (602), and the sliding mounting column (602) is connected to the lifting control suction auxiliary mounting cylinder (403) in a sliding manner; the bottom of the sliding mounting column (602) is welded with a plugging connecting column (603), and the plugging connecting column (603) is connected to the suction limiting hole (5013) in a sliding manner;

the auxiliary anti-blocking dredging plug connector (7) comprises: the anti-blocking device comprises an anti-blocking connecting electric push rod (701) and a telescopic dredging column (702), wherein the telescopic dredging column (702) is welded on an output shaft of the anti-blocking connecting electric push rod (701); the anti-blocking connection electric push rod (701) is sleeved inside the plugging connection column (603); the telescopic dredging column (702) is connected inside the plugging connection column (603) in a sliding manner; the telescopic dredging column (702) is aligned with a discharge installation tube (102) provided with a discharge auxiliary control ball valve (103).

2. The raw material defoaming device for producing protective gloves according to claim 1, wherein: the stock mount (1) further comprises: the two support auxiliary legs (106) are arranged, and the two support auxiliary legs (106) are respectively welded on the inner side of the suspension installation auxiliary storage sealing installation box (101); rubber pads are respectively stuck on the two supporting auxiliary legs (106).

3. The raw material defoaming device for producing protective gloves according to claim 1, wherein: the lifting control device (4) comprises: the lifting control installation hydraulic cylinders (401), lifting control plate frames (402) and lifting control suction auxiliary installation cylinders (403), wherein two lifting control installation hydraulic cylinders (401) are arranged, and the two lifting control installation hydraulic cylinders (401) are respectively installed on two side surfaces of the hanging installation auxiliary storage sealing installation box (101); the lifting control plate frames (402) are fixedly welded on the output shafts of the two lifting control installation hydraulic cylinders (401); the bottom of the lifting control plate frame (402) is fixedly welded with a lifting control suction auxiliary mounting cylinder (403), and a slotted hole is formed in the lifting control suction auxiliary mounting cylinder (403).

4. A raw material defoaming device for producing protective gloves according to claim 3, characterized in that: the mobile connection (5) comprises: the lifting adaptive sealing connection piston plate (501), a sealing connection rubber ring (5011), a fitting installation butt joint groove (5012), a suction limiting hole (5013) and a suction connection hole (5014), wherein the sealing connection rubber ring (5011) is sleeved and embedded on the lifting adaptive sealing connection piston plate (501); the sealing connection rubber ring (5011) is attached to the inner side of the hanging installation auxiliary storage sealing installation box (101); the lifting adaptive sealing connection piston plate (501) is sleeved on the hanging installation auxiliary storage sealing installation box (101); the lifting adaptive sealing connection piston plate (501) is fixedly welded at the bottom of the lifting control suction auxiliary mounting cylinder (403); four fitting and installing butt joint grooves (5012) are formed, and the four fitting and installing butt joint grooves (5012) are respectively formed in the lifting adaptive sealing connection piston plate (501); the four fitting and mounting butt joint grooves (5012) are respectively aligned with the four swing auxiliary mounting bubble removal cylinders (201); the suction limiting hole (5013) is formed in the lifting adaptive sealing connection piston plate (501); the suction connecting hole (5014) is arranged on the lifting adaptive sealing connection piston plate (501); the suction connecting hole (5014) is communicated with the suction limiting hole (5013) and the lifting control suction auxiliary mounting cylinder (403); the bottom of the suspension installation auxiliary storage sealing installation box (101) is provided with a heating plate externally connected with a power supply.

5. The raw material defoaming device for producing protective gloves according to claim 4, wherein: the mobile connection (5) further comprises: a connecting suction pipe (502) and a vacuum suction machine (503), wherein the connecting suction pipe (502) is connected with the lifting control suction auxiliary installation cylinder (403); the other end of the connecting suction pipe (502) is connected with a vacuum suction machine (503), and the vacuum suction machine (503) is connected to the lifting adaptive sealing connection piston plate (501) through a bolt; the vacuum suction machine (503) is externally connected with a control power supply; the vacuum suction machine (503) is communicated with the suction limiting hole (5013).