CN113954279A - Glove impregnation device - Google Patents
Glove impregnation device Download PDFInfo
- Publication number
- CN113954279A CN113954279A CN202111318141.4A CN202111318141A CN113954279A CN 113954279 A CN113954279 A CN 113954279A CN 202111318141 A CN202111318141 A CN 202111318141A CN 113954279 A CN113954279 A CN 113954279A
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- transmission
- shaft
- rotating shaft
- cavity
- wheel
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C41/00—Shaping by coating a mould, core or other substrate, i.e. by depositing material and stripping-off the shaped article; Apparatus therefor
- B29C41/02—Shaping by coating a mould, core or other substrate, i.e. by depositing material and stripping-off the shaped article; Apparatus therefor for making articles of definite length, i.e. discrete articles
- B29C41/14—Dipping a core
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C41/00—Shaping by coating a mould, core or other substrate, i.e. by depositing material and stripping-off the shaped article; Apparatus therefor
- B29C41/34—Component parts, details or accessories; Auxiliary operations
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29L—INDEXING SCHEME ASSOCIATED WITH SUBCLASS B29C, RELATING TO PARTICULAR ARTICLES
- B29L2031/00—Other particular articles
- B29L2031/48—Wearing apparel
- B29L2031/4842—Outerwear
- B29L2031/4864—Gloves
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Treatment Of Fiber Materials (AREA)
Abstract
The invention discloses a glove gum dipping device, which is characterized in that: the automatic glue dipping machine comprises two guide rails which are arranged in parallel, wherein moving tables are arranged on the upper portions of the guide rails in a sliding mode, a conveying rod is arranged between the two corresponding moving tables in a front-back mode, the lower portions of the conveying rod are connected with a plurality of hand molds, a plurality of supporting columns are connected to the lower portions of the guide rails, a glue dipping mechanism is arranged below the guide rails and comprises a hydraulic cylinder, the upper end of a piston rod of the hydraulic cylinder is connected with a glue dipping box, a transmission cavity is arranged on the inner side of the glue dipping box, and a glue dipping cavity is arranged on the inner side of the transmission cavity. According to the invention, the first transmission mechanism and the second transmission mechanism are respectively matched with the driving gear and the driven gear, so that the stirring speed of glue in the glue dipping box is different, and different processing requirements are met.
Description
Technical Field
The invention relates to the technical field of glove processing equipment, in particular to a glove gum dipping device.
Background
The gloves are common articles in daily life and industrial production, wherein the gum dipping gloves have good oil-proof, water-proof and acid-base-proof protection effects, are improved in durability, are widely used in the industries of medical treatment, sanitation, hairdressing and beauty, food processing and the like, effectively prevent cross infection and protect hands. The existing glove dipping equipment is simple in structure, the glue in the dipping pool is stirred at a constant speed, and the dipping effect is influenced due to the fact that the flowing speed of the glue is too high in the dipping process.
Disclosure of Invention
The invention aims to overcome the defects of the prior art and provides a glove dipping device.
In order to achieve the purpose, the invention provides the following technical scheme to realize the purpose:
a glove gumming device comprises two guide rails arranged in parallel, wherein moving tables are arranged on the upper portions of the guide rails in a sliding mode, a conveying rod is arranged between the two moving tables which correspond to each other in the front-back direction, a plurality of hand molds are connected to the lower portions of the conveying rods, a plurality of supporting columns are connected to the lower portions of the guide rails, a gumming mechanism is arranged below the guide rails and comprises a hydraulic cylinder, a gumming box is connected to the upper end of a piston rod of the hydraulic cylinder, a transmission cavity is arranged on the inner side of the gumming box, a gumming cavity is arranged on the inner side of the transmission cavity, a first stirring paddle is arranged on the left side of the gumming cavity, a second stirring paddle is arranged on the right side of the gumming cavity, a driving shaft is rotatably arranged in the middle of the transmission cavity, a transmission part is arranged between the first stirring paddle and the second stirring paddle and the driving shaft, the driving shaft drives the first stirring paddle and the second stirring paddle to rotate through the transmission part, the front end of the driving shaft extends out of the transmission cavity and is connected with a driven gear, a supporting plate is connected to the lower portion of the gumming box, the upper part of the supporting plate is provided with a stirring motor, the stirring motor is connected with a driving gear in a driving way, a supporting rod is arranged in front of the impregnation box, the front end of the supporting rod is connected with a first supporting frame and a second supporting frame, the first supporting frame and the second supporting frame are respectively provided with a first transmission mechanism and a second transmission mechanism, the first transmission mechanism and the second transmission mechanism are matched with the driving gear and the driven gear, and the supporting plate is provided with a notch for the first transmission mechanism to pass through.
Preferably, a first worm and a second worm are respectively and rotatably arranged at positions on two sides of the driving shaft in the transmission cavity, a first synchronous belt is connected between the driving shaft and the first worm, a second synchronous belt is connected between the driving shaft and the second worm, a first rotating shaft frame is arranged on a side wall of the transmission cavity close to one side of the first worm, a first rotating shaft is arranged on the first rotating shaft frame, a first worm wheel and a first bevel gear are arranged on the first rotating shaft, the first worm wheel is matched with the first worm, a rotating shaft seat is arranged at a position above the first rotating shaft frame in the transmission cavity, a first transmission shaft is rotatably arranged in the rotating shaft seat, a second bevel gear is connected at the lower end of the first transmission shaft, a third bevel gear is connected at the upper end of the first transmission shaft, a second rotating shaft frame is arranged at a position above the rotating shaft seat in the transmission cavity, a second rotating shaft is rotatably arranged on the second rotating shaft frame, and a fourth bevel gear is arranged on the second rotating shaft, the inner end of the second rotating shaft extends into the dipping cavity and is connected with a first stirring paddle.
Preferably, a third rotating shaft frame is arranged on the side wall of the transmission cavity close to one side of the second worm, a third rotating shaft is rotatably arranged on the third rotating shaft frame, a second worm wheel and a first transmission wheel are arranged on the third rotating shaft, the second worm wheel is matched with the second worm, a fourth rotating shaft frame is arranged above the third rotating shaft frame in the transmission cavity, a fourth rotating shaft is rotatably arranged on the fourth rotating shaft frame, a second transmission wheel is arranged on the fourth rotating shaft, a second transmission belt is connected between the second transmission wheel and the first transmission wheel, and the inner end of the fourth rotating shaft extends into the glue dipping cavity and is connected with a second stirring paddle.
Preferably, one side of the glue dipping cavity, which is close to the first stirring paddle, is provided with a first guide block, the first guide block is positioned above the first stirring paddle, the thickness of the first guide block is sequentially reduced from top to bottom so as to form a first guide surface at the inner side, one side of the glue dipping cavity, which is close to the second stirring paddle, is provided with a second guide block, the second guide block is positioned below the second stirring paddle, and the thickness of the second guide block is sequentially reduced from bottom to top so as to form a second guide surface at the inner side.
Preferably, the moving table comprises a supporting table installed on the guide rail, a part of the supporting table is located above the guide rail, a part of the supporting table extends outwards to the outer side face of the guide rail, a conveying groove is formed in the outer side face of the guide rail, a conveying motor is arranged on the part, extending to the outer side face of the guide rail, of the supporting table, the conveying motor is connected with a conveying wheel in a driving mode, the conveying wheel is located in the conveying groove, and two movable clamping blocks are arranged on the upper portion of the supporting table.
Preferably, a rotating groove is formed in the middle of the upper portion of the supporting table, sliding grooves are formed in two sides of the rotating groove, first rotating seats are arranged at two ends of the rotating groove, a driving shaft is arranged in the first rotating seats in a rotating mode, two ends of the driving shaft are connected with first lead screws, the first lead screws are arranged in the sliding grooves, sliding blocks are arranged on the first lead screws, the upper ends of the sliding blocks are connected with the lower ends of the movable clamping blocks, a motor groove is formed in the position, located on the side face of the rotating groove, of the supporting table, a first lead screw motor is arranged in the motor groove, the first lead screw motor is connected with a first driving wheel in a driving mode, and a first driving belt is connected between the first driving wheel and the driving shaft.
Preferably, the first transmission mechanism comprises a second transmission shaft arranged on the first support frame, two ends of the second transmission shaft are respectively connected with a first transmission gear and a second transmission gear,
the second transmission mechanism comprises a supporting seat arranged on the second supporting frame, a first mounting plate and a second mounting plate are arranged on the supporting seat, a third transmission shaft is arranged on the first mounting plate, a third transmission gear and a first synchronous wheel are arranged on the third transmission shaft, a fourth transmission shaft is arranged between the first mounting plate and the second mounting plate, a fourth transmission gear and a second synchronous wheel are arranged on the fourth transmission shaft, a third synchronous belt is connected between the first synchronous wheel and the second synchronous wheel, a fifth transmission shaft is arranged on the second mounting plate, a fifth transmission gear is arranged on the fifth transmission shaft, and the fourth transmission gear is meshed with the fifth transmission gear.
As preferred, the gumming chamber sub-unit connection has the conveyer pipe, the conveyer pipe sub-unit connection has the valve body, the valve body intermediate position rotates and is provided with the valve shaft, be provided with two valve blocks on the valve shaft, valve shaft one end is stretched out the valve body and is connected with adjusting handle, be connected with drain pipe and feed pipe on the valve body, the drain pipe sub-unit connection has the drain tank, the feed pipe sub-unit connection has the feed tank, be equipped with the feed pump on the feed pipe, be provided with first flexible section in the middle of the feed pipe, be provided with the flexible section of second in the middle of the drain pipe.
As preferred, be equipped with first filter mechanism on the feed pipe, first filter mechanism is including installing the installation piece in the feed pipe both sides, the installation piece outside is provided with the washing case, the position that the feed pipe both sides are located the installation piece is provided with sealed piece, it is provided with the filter block to slide in the sealed piece, the filter block passes the feed pipe setting, the filter block both sides are provided with the dog, the top of wasing the incasement side is provided with out the water cavity, it is provided with a plurality of shower nozzles to go out the water cavity lower part, it is provided with the water pump to go out water cavity upper portion, the bottom of wasing the incasement side is provided with the water collecting bucket, the water collecting bucket sub-unit connection has the drain pipe, it is equipped with the cylinder to wash case upper portion, be equipped with the connecting rod on the piston rod of cylinder, be equipped with the push rod on the connecting rod, the push rod cooperatees with the dog.
As preferred, be equipped with second filter mechanism on the drain pipe, second filter mechanism includes the filter, the filter inserts the drain pipe and sets up, the drain pipe inboard is provided with the supporting shoe, filter inner is shelved in supporting shoe upper portion, the position that the drain pipe inboard is located the supporting shoe top is provided with fixed breach, the filter intermediate position is provided with the filter screen, filter upper portion left side is provided with the sprue, the sprue right side is provided with the fixed lug with fixed breach matched with, be provided with the gasket on the drain pipe, the gasket is located the top of sprue and the below of filter, still include the closing plate with sprue matched with, the sprue left side is provided with the dovetail block, the closing plate right side is equipped with the dovetail block matched with dovetail, the closing plate left side is provided with the handle.
Compared with the prior art, the invention has the beneficial effects that: the first transmission mechanism and the second transmission mechanism drive the driving shaft to rotate at different matching speeds so as to meet different requirements. When the glue dipping box is away from the hand mold by a certain distance, the first transmission mechanism is matched with the driving gear and the driven gear to transmit, and the first stirring paddle and the second stirring paddle in the glue dipping box are driven to rotate at a higher speed, so that the glue in the glue dipping cavity flows at a higher speed, the glue at each position in the glue dipping cavity is more uniform, and the glue is effectively prevented from being solidified. When the dipping box rises to enable the hand mould to enter the dipping cavity, the second transmission mechanism is matched with the driving gear and the driven gear to carry out transmission to drive the first stirring paddle and the second stirring paddle in the dipping box to rotate at a slower speed, so that the glue in the dipping cavity flows at a slower speed, the glue keeps flowing and cannot be solidified, and meanwhile, the dipping treatment of the hand mould is not influenced.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of the glue dipping mechanism of the present invention;
FIG. 3 is a schematic view of the construction of the dipping box of the present invention;
FIG. 4 is an enlarged schematic view at A in FIG. 3;
FIG. 5 is a cross-sectional view of the gum dipping mechanism of the present invention;
FIG. 6 is a schematic view of the valve body of the present invention;
FIG. 7 is a schematic structural diagram of a second transmission mechanism according to the present invention;
FIG. 8 is a schematic view of a second filter mechanism according to the present invention;
FIG. 9 is a top view of the second filter mechanism of the present invention;
FIG. 10 is a schematic structural view showing a replacement state of the second filter mechanism according to the present invention;
FIG. 11 is a schematic view of a first filter mechanism according to the present invention;
FIG. 12 is a schematic view of the structure of the transfer rod of the present invention;
FIG. 13 is a schematic view of the present invention at the support stage;
FIG. 14 is a schematic structural diagram of a shaking mechanism according to the present invention;
fig. 15 is an enlarged schematic view at a in fig. 14.
Reference numerals: a support column 1; a guide rail 2; a mobile station 3; a transmission block 4; a hand mold 5; a transfer lever 6; a conveying trough 7; a support table 8; a transfer motor 9; a transfer wheel 10; a movable clamping block 11; a slide groove 12; a first lead screw 13; a rotation groove 14; a drive shaft 15; a first rotating base 16; a slide block 17; a motor slot 18; a first lead screw motor 19; a first drive wheel 20; a first belt 21; a glue dipping mechanism 22; a shaking mechanism 23; a dipping box 24; a hydraulic cylinder 25; a support bar 26; a limit groove 27; a stopper post 28; a first support frame 29; a first transmission mechanism 30; a second support frame 31; a second transmission mechanism 32; a support plate 33; a stirring motor 34; a liquid supply tank 35; a liquid supply pump 36; a liquid supply tube 37; a first telescoping section 38; the first filter mechanism 39; an installation case 40; an adjusting hand wheel 41; the transmission chamber 42; a glue dipping cavity 43; a drive shaft 44; a first worm 45; a second worm 46; a first timing belt 47; a second timing belt 48; a first shaft holder 49; a first rotating shaft 50; a first worm wheel 51; a first bevel gear 52; a rotating shaft seat 53; a first drive shaft 54; a second bevel gear 55; a third bevel gear 56; a second spindle bracket 57; a second rotating shaft 58; a fourth bevel gear 59; a first stirring paddle 60; a first guide block 61; a first guide surface 62; a third rotating shaft frame 63; a third rotating shaft 64; a second worm gear 65; a first drive pulley 66; a fourth rotating shaft frame 67; a fourth rotating shaft 68; a second drive wheel 69; a second belt 70; a second stirring paddle 71; a second guide block 72; a second guide surface 73; a delivery pipe 74; a valve body 75; a valve block 76; a liquid outlet pipe 77; a liquid outlet box 78; a second telescoping section 79; a second filter mechanism 80; the valve shaft 81; a stop block 82; a drive gear 83; a driven gear 84; a notch 85; a second drive shaft 86; a first transmission gear 87; a second drive gear 88; a support seat 89; a first mounting plate 90; a third transmission shaft 91; a third drive gear 92; a first synchronizing wheel 93; a fourth transmission shaft 94; a second synchronizing wheel 95; a third timing belt 96; a second mounting plate 97; a fourth transfer gear 98; a fifth propeller shaft 99; a fifth drive gear 100; a filter plate 101; a support block 102; a fixation notch 103; a sealing disc 104; a handle 105; a guide groove 106; a blocking block 107; a fixing projection 108; a filter screen 109; dovetail block 110; a sixth bevel gear 111; a sealing plate 112; a dovetail groove 113; a handle 114; a filter block 115; a stopper 116; a mounting block 117; a cleaning tank 118; an outlet chamber 119; a water pump 120; a shower head 121; a cylinder 122; a connecting rod 123; a push rod 124; a water collection hopper 125; a drain pipe 126; a base 127; a guide rod 128; a lifter plate 129; a second lead screw 130; a lead screw slider 131; a motor base 132; a dither motor 133; a cam 134; a guide post 135; a second lead screw motor 136; a fifth bevel gear 137; a sealing block 138; a receiving hopper 139.
Detailed Description
Embodiments of the present invention are described in detail below with reference to fig. 1-15.
A glove gumming device comprises two guide rails 2 arranged in parallel, wherein the upper parts of the guide rails 2 are provided with moving tables 3 in a sliding manner, a conveying rod 6 is arranged between the two front and back corresponding moving tables 3, the lower part of the conveying rod 6 is connected with a plurality of hand molds 5, the lower part of the guide rails 2 is connected with a plurality of supporting columns 1, a gumming mechanism 22 is arranged below the guide rails 2, the gumming mechanism 22 comprises a hydraulic cylinder 25, the upper end of a piston rod of the hydraulic cylinder 25 is connected with a gumming box 24, the inner side of the gumming box 24 is provided with a transmission cavity 42, the inner side of the transmission cavity 42 is provided with a gumming cavity 43, the middle position of the transmission cavity 42 is rotatably provided with a driving shaft 44, the positions at the two sides of the driving shaft 44 in the transmission cavity 42 are respectively rotatably provided with a first worm 45 and a second worm 46, a first synchronous belt 47 is connected between the driving shaft 44 and the first worm 45, a second synchronous belt 48 is connected between the driving shaft 44 and the second worm 46, a first rotating shaft bracket 49 is arranged on the side wall of the transmission cavity 42 close to the first worm 45, a first rotating shaft 50 is arranged on the first rotating shaft bracket 49, a first worm wheel 51 and a first bevel gear 52 are arranged on the first rotating shaft 50, the first worm wheel 51 is matched with the first worm 45, a rotating shaft seat 53 is arranged at a position above the first rotating shaft bracket 49 in the transmission cavity 42, a first transmission shaft 54 is arranged in the rotating shaft seat 53 in a rotating way, the lower end of the first transmission shaft 54 is connected with a second bevel gear 55, the second bevel gear 55 is meshed with the first bevel gear 52, the upper end of the first transmission shaft 54 is connected with a third bevel gear 56, a second rotating shaft bracket 57 is arranged at a position above the rotating shaft seat 53 in the transmission cavity 42, a second rotating shaft 58 is arranged on the second rotating shaft bracket 57 in a rotating way, a fourth bevel gear 59 is arranged on the second rotating shaft 58, the fourth bevel gear 59 is meshed with the third bevel gear 56, the inner end of the second rotating shaft 58 extends into the glue soaking cavity 43 and is connected with a first stirring paddle 60, and a third rotating shaft bracket 63 is arranged on the side wall of the transmission cavity 42 close to the second worm 46, a third rotating shaft 64 is rotatably arranged on the third rotating shaft frame 63, a second worm wheel 65 and a first driving wheel 66 are arranged on the third rotating shaft 64, the second worm wheel 65 is matched with the second worm 46, a fourth rotating shaft frame 67 is arranged at the position above the third rotating shaft frame 63 in the transmission cavity 42, a fourth rotating shaft 68 is rotatably arranged on the fourth rotating shaft frame 67, a second driving wheel 69 is arranged on the fourth rotating shaft 68, a second driving belt 70 is connected between the second driving wheel 69 and the first driving wheel 66, the inner end of the fourth rotating shaft 68 extends into the dipping glue cavity 43 and is connected with a second stirring paddle 71, the front end of the driving shaft 44 extends out of the transmission cavity 42 and is connected with a driven gear 84, the lower part of the dipping glue box 24 is connected with a support plate 33, the upper part of the support plate 33 is provided with a stirring motor 34, the stirring motor 34 is in driving connection with a driving gear 83, a support rod 26 is arranged in front of the dipping glue box 24, the front end of the support rod 26 is connected with a first support frame 29 and a second support frame 31, the first support frame 29 and the second support frame 31 are respectively provided with a first transmission mechanism 30 and a second transmission mechanism 32, the support plate 33 is provided with a notch 85 for the first transmission mechanism 30 to pass through, and the hydraulic cylinder 25 drives the dipping box 24 to lift so that the first transmission mechanism 30 or the second transmission mechanism 32 is matched with the driving gear 83 and the driven gear 84 for transmission.
When the glue dipping box 24 is away from the hand mold 5 by a certain distance, the first transmission mechanism 30 is matched with the driving gear 83 and the driven gear 84 for transmission to drive the first stirring paddle 60 and the second stirring paddle 71 in the glue dipping box 24 to rotate at a higher speed, so that the glue in the glue dipping cavity 43 flows at a higher speed, the glue at each position in the glue dipping cavity 43 is more uniform, and the glue is effectively prevented from being solidified. When the dipping box 24 ascends to enable the hand mold 5 to enter the dipping cavity 43, the second transmission mechanism 32 is matched with the driving gear 83 and the driven gear 84 to carry out transmission to drive the first stirring paddle 60 and the second stirring paddle 71 in the dipping box 24 to rotate at a slower speed, so that the glue in the dipping cavity 43 flows at a slower speed, the glue keeps flowing and cannot be solidified, and meanwhile, the dipping treatment of the hand mold 5 is not influenced.
Preferably, a first guide block 60 is arranged on one side of the dipping cavity 43 close to the first stirring paddle 60, the first guide block 60 is arranged above the first stirring paddle 60, the thickness of the first guide block 60 is sequentially reduced from top to bottom so as to form a first guide surface 62 on the inner side, a second guide block 73 is arranged on one side of the dipping cavity 43 close to the second stirring paddle 71, the second guide block 73 is arranged below the second stirring paddle 71, and the thickness of the second guide block 73 is sequentially reduced from bottom to top so as to form a second guide surface 73 on the inner side. The glue pushed by the rotation of the first stirring paddle 60 reaches the second guide block 72, the glue moves to the second stirring paddle 71 along the second guide surface 73, the glue pushed by the second stirring paddle 71 reaches the first guide block 61, and the glue moves to the first stirring paddle 60 along the first guide surface 62, so that the glue flows in the glue dipping cavity 43 in the counterclockwise direction, and the glue is uniformly distributed.
Preferably, the moving table 3 includes a supporting table 8 mounted on the guide rail 2, a part of the supporting table 8 is located above the guide rail 2, and a part of the supporting table 8 extends outward to the outer side surface of the guide rail 2, a conveying groove 7 is formed in the outer side surface of the guide rail 2, a conveying motor 9 is arranged on the supporting table 8 and extends to the outer side surface of the guide rail 2, a conveying wheel 10 is connected to the conveying motor 9 in a driving manner, the conveying wheel 10 is located in the conveying groove 7, two movable clamping blocks 11 are arranged on the upper portion of the supporting table 8, and the conveying rod 6 is clamped through the two movable clamping blocks 11. The transfer motor 9 drives the transfer wheel 10 to rotate in the conveying groove 7, so that the support table 8 moves on the guide rail 2, and the moving table 3 drives the transfer rod 6 to move.
Preferably, a rotating groove 14 is formed in the middle of the upper portion of the supporting table 8, sliding grooves 12 are formed in two sides of the rotating groove 14, first rotating seats 16 are formed in two ends of the rotating groove 14, a driving shaft 15 is rotatably arranged in the first rotating seats 16, first lead screws 13 are connected to two ends of the driving shaft 15, the first lead screws 13 are arranged in the sliding grooves 12, sliding blocks 17 are arranged on the first lead screws 13, the upper ends of the sliding blocks 17 are connected with the lower ends of the movable clamping blocks 11, a motor groove 18 is formed in the supporting table 8 and located on the side face of the rotating groove 14, a first lead screw motor 19 is arranged in the motor groove 18, the first lead screw motor 19 is in driving connection with a first driving wheel 20, and a first driving belt 21 is connected between the first driving wheel 20 and the driving shaft 15. The driving shaft 15 drives the first screw rod 13 to rotate through the positive and negative rotation of the first screw rod motor 19, the control sliding block 17 moves in the sliding groove 12, and therefore the two movable clamping blocks 11 are driven to move oppositely or relatively, the conveying rod 6 is clamped or loosened, and the conveying rod 6 can be suitable for conveying rods 6 with different diameters.
Preferably, the support rod 26 is provided with a limit groove 27, and a limit post 28 inserted into the limit groove 27 is connected to the front side of the impregnation box 24. The limiting groove 27 is matched with the limiting column 28 and used for controlling the highest and lowest heights of the rubber dipping box 24 in a lifting mode, and damage to the first transmission mechanism 30 and the second transmission base 32 due to lifting transition of the rubber dipping box 24 is avoided.
Preferably, the first transmission mechanism 30 includes a second transmission shaft 86 disposed on the first support frame 29, a first transmission gear 87 and a second transmission gear 88 are respectively connected to two ends of the second transmission shaft 86, the first transmission gear 87 and the second transmission gear 88 are respectively matched with the driving gear 83 and the driven gear 84, the driving gear 83 and the driven gear 84 have the same size, the first transmission gear 87 and the second transmission gear 88 have the same size, and the first transmission mechanism 30 enables the driven gear 84 and the driving gear 83 to rotate at the same speed, so that the driving shaft 44 keeps a high rotation speed;
the second transmission mechanism 32 comprises a support seat 89 arranged on the second support frame 31, a first mounting plate 90 and a second mounting plate 97 are arranged on the support seat 89, a third transmission shaft 91 is arranged on the first mounting plate 97, a third transmission gear 92 and a first synchronous wheel 93 are arranged on the third transmission shaft 91, a fourth transmission shaft 94 is arranged between the first mounting plate 90 and the second mounting plate 97, a fourth transmission gear 98 and a second synchronous wheel 95 are arranged on the fourth transmission shaft 94, a third synchronous belt 96 is connected between the first synchronous wheel 93 and the second synchronous wheel 95, a fifth transmission shaft 99 is arranged on the second mounting plate 97, a fifth transmission gear 100 is arranged on the fifth transmission shaft 99, the fourth transmission gear 98 is meshed with the fifth transmission gear 100, the third transmission gear 92 and the fifth transmission gear 100 are respectively matched with the drive gear 83 and the driven gear 84, and the size of the third transmission gear 92 is the same as that of the fifth transmission gear 100, the fourth transfer gear 98 is sized smaller than the fifth transfer gear 100 to provide a speed reduction effect such that the rotational speed of the fifth transfer gear 100 is less than the rotational speed of the third transfer gear 92 to rotate the drive shaft 44 at a slower speed. The first transmission mechanism 30 and the second transmission mechanism 32 drive the driving shaft 44 to rotate at different matching speeds to meet different requirements.
Preferably, the lower portion of the dipping cavity 43 is connected with a delivery pipe 74, the lower portion of the delivery pipe 74 is connected with a valve body 75, a valve shaft 81 is rotatably arranged in the middle of the valve body 75, two valve blocks 76 are arranged on the valve shaft 81, one end of the valve shaft 81 extends out of the valve body 75 and is connected with an adjusting hand wheel 41, the lower portion of the dipping box 24 is provided with an installation box 40, the valve body 75 is arranged in the installation box 40, the valve body 75 is connected with a liquid outlet pipe 77 and a liquid supply pipe 37, the lower portion of the liquid outlet pipe 77 is connected with a liquid outlet box 78, the lower portion of the liquid supply pipe 37 is connected with a liquid supply box 35, the liquid supply pipe 37 is provided with a liquid supply pump 36, a first telescopic section 38 is arranged in the middle of the liquid supply pipe 37, a second telescopic section 79 is arranged in the middle of the liquid outlet pipe 77, the first telescopic section 38 and the second telescopic section 79 can be telescopic along with the lifting of the dipping box 24, and damage to the liquid supply pipe 37 and the liquid outlet pipe 77 caused by stretching and compression can be avoided. The valve body 75 is internally provided with a limiting block 82, the limiting block 82 is used for limiting the position of the valve block 76, and meanwhile, the function of prompting the position of the valve block 76 can be achieved to a certain extent, so that the on-off condition of the valve body 75 and a pipeline is judged.
In the state shown in fig. 6, the valve block 76 blocks the connection between the delivery pipe 74, the liquid supply pipe 37 and the valve body 75, and no liquid flows. The valve shaft 81 is rotated clockwise by a certain angle, so that the joint of the delivery pipe 74 and the valve body 75 is exposed, the joint of the liquid supply pipe 37 and the valve body 75 is located between the two valve blocks 76, and at this time, the liquid in the dipping glue box 24 flows into the valve body 75 from the delivery pipe 74 and then flows out from the liquid outlet pipe 77. Then, the valve shaft 81 is rotated clockwise to make the valve blocks 76 abut against the limiting blocks 82, at this time, the connection position of the liquid outlet pipe 77 and the valve body 75 is located at a position between the two valve blocks 76, the delivery pipe 74 and the liquid supply pipe 37 are communicated through the valve body 75, and the liquid supplied from the liquid supply pipe 37 enters the impregnation tank 24 through the delivery pipe 74.
Preferably, the liquid supply pipe 37 is provided with a first filtering mechanism 39, the first filtering mechanism 39 includes a mounting block 117 mounted on two sides of the liquid supply pipe 37, a cleaning tank 118 is disposed on an outer side of the mounting block 117, a sealing block 138 is disposed at a position of two sides of the liquid supply pipe 37 in the mounting block 117, a filtering block 115 is slidably disposed in the sealing block 138, the filtering block 115 passes through the liquid supply pipe 37, stoppers 116 are disposed on two sides of the filtering block 115, a water outlet cavity 119 is disposed at a top portion of an inner side of the cleaning tank 118, a plurality of nozzles 121 are disposed at a lower portion of the water outlet cavity 119, a water pump 120 is disposed at an upper portion of the water outlet cavity 119, a water collecting hopper 125 is disposed at a bottom portion of the inner side of the cleaning tank 118, a drain pipe 126 is connected to a lower portion of the water collecting hopper 125, an air cylinder 122 is disposed at an upper portion of the cleaning tank 118, a connecting rod 123 is disposed on a piston rod of the air cylinder 122, a push rod 124 is disposed on the connecting rod 123, and the push rod 124 is matched with the stoppers 116. The cylinder 122 drives the push rod 124 to move by the extension and contraction of the piston rod, so as to push the filter block 115 to move on the liquid supply pipe 37, so that a part of the filter block 115 is positioned in the liquid supply pipe 37 for filtering, and a part of the filter block 115 is positioned in the cleaning tank 118 for back washing, thereby ensuring that the filter block 115 has a good filtering effect and prolonging the service life of the filter block. The water in the water outlet cavity 119 is sprayed out through the nozzle 121 by the water pump 120, so as to wash the filter block 115 below, and the impurities attached to the filter block 115 are removed. The water, mixed with impurities, falls into the lower water collection hopper 125 and is discharged through the drain pipe 126.
Preferably, the second filtering mechanism 80 is arranged on the liquid outlet pipe 77, the second filtering mechanism 80 comprises a filter plate 101, the left side of the filter plate 101 is connected with a handle 105, the filter plate 101 is inserted into the liquid outlet pipe 77, a supporting block 102 is arranged on the inner side of the liquid outlet pipe 77, the inner end of the filter plate 101 is placed on the upper portion of the supporting block 102, a fixing notch 103 is arranged at the position, above the supporting block 102, of the inner side of the liquid outlet pipe 77, a filter screen 109 is arranged at the middle position of the filter plate 101, a block 107 is arranged on the left side of the upper portion of the filter plate 101, a fixing lug 108 matched with the fixing notch 103 is arranged on the right side of the block 107, a sealing sheet 104 is arranged on the liquid outlet pipe 77, the sealing sheet 104 is arranged above the block 107 and below the filter plate 101, the sealing plate 112 matched with the block 107 is further included, a dovetail block 110 is arranged on the left side of the block 107, a dovetail groove 113 matched with the dovetail block 110 is arranged on the right side of the sealing plate 112, the sealing plate 112 is provided at the left side thereof with a handle 114.
In the filtration state, the plug 107 plugs the filter plate 101 in such a way that no liquid can flow from there, while being ready for subsequent filter plate 101 replacement. When the filter plate 101 needs to be replaced, the sealing plate 112 is attached to the block 107 by engaging the dovetail block 112 with the dovetail groove 113. The sealing plate 112 is pushed and the block 107 is moved, so that the fixing protrusion 108 is inserted into the fixing notch 103. The sealing plate 112 and the blocking piece 107 cooperate to block the liquid outlet pipe 77 and stop the flow of the liquid. At this time, the old filter plate 101 is pulled out and the new filter plate 101 is inserted, so that the filter plate 101 is replaced, and the sealing plate 112 is pulled outward to return the stopper 107 to the original position after the replacement. By additionally arranging the sealing plate 112, the liquid outlet pipe 77 can be blocked when the filter plate 101 is replaced, so that the liquid is prevented from directly flowing out without being filtered when the filter plate 101 is replaced.
The upper part of the filter plate 101 is provided with a guide groove 106, the lower part of the block 107 is provided with a guide strip inserted into the guide groove 106, and the guide strip is matched with the guide groove 106 to ensure that the block 107 can move along the designated direction.
The shaking mechanism 23 is further included, the shaking mechanism 23 includes a base 127 correspondingly arranged below the guide rail 2, the left side and the right side of the upper portion of the base 127 are respectively provided with a guide rod 128 and a second screw rod 130, the upper end of the guide rod 128 is connected with the guide rail 2, the upper end of the second screw rod 130 is rotatably connected with the guide rail 2, the second screw rod 130 is provided with a screw rod slide block 131, the screw rod slide block 131 is provided with a lifting plate 129, the guide rod 128 passes through the lifting plate 129, the lower portion of the lifting plate 129 is provided with a receiving hopper 139, the upper portion of the base 127 is provided with a second screw rod motor 136, the second screw rod motor 136 is in driving connection with a fifth bevel gear 137, the second screw rod 130 is provided with a sixth bevel gear 111, the fifth bevel gear 137 is engaged with the sixth bevel gear 111, the lifting plate 129 is provided with two vertically arranged guide columns 135, the upper portion of the lifting plate 129 is provided with a motor base 132, the upper portion of the motor base 132 is provided with a shaking motor 133, the shaking motor 133 is in driving connection with a cam 134, the transmission rod 6 is provided at both ends thereof with transmission blocks 4 engaged with the cams 134. The hand mold 5 which finishes gum dipping moves to the shaking mechanism 23 along with the transmission rod 6, and the second lead screw motor 136 drives the second lead screw 130 to rotate, so that the lifting plate 129 rises until the hand mold 5 is positioned in the receiving hopper 139. At the same time, the lifting plate 129 lifts the guide posts 135 so that the transfer bar 6 is located between the two guide posts 135. The shaking motor 133 drives the cam 134 to rotate, and the cam 134 moves against the driving block 4, so that the transfer rod 6 is shaken up and down, and excess glue on the hand mold 5 is shaken off.
The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.
Claims (9)
1. A glove gumming device is characterized in that: the device comprises two parallel guide rails (2), wherein the upper parts of the guide rails (2) are provided with moving tables (3) in a sliding manner, a conveying rod (6) is arranged between the two moving tables (3) which correspond to each other in front and back, the lower part of the conveying rod (6) is connected with a plurality of hand molds (5), the lower part of the guide rail (2) is connected with a plurality of supporting columns (1), an impregnating mechanism (22) is arranged below the guide rail (2), the impregnating mechanism (22) comprises a hydraulic cylinder (25), the upper end of a piston rod of the hydraulic cylinder (25) is connected with an impregnating box (24), the inner side of the impregnating box (24) is provided with a transmission cavity (42), the inner side of the transmission cavity (42) is provided with an impregnating cavity (43), the left side of the impregnating cavity (43) is provided with a first stirring paddle (60), the right side of the impregnating cavity (43) is provided with a second stirring paddle (71), the middle position of the transmission cavity (42) is rotatably provided with a driving shaft (44), and transmission parts are arranged among the first stirring paddle (60), the second stirring paddle (71) and the driving shaft (44), the driving shaft (44) drives the first stirring paddle (60) and the second stirring paddle (71) to rotate through a transmission part, the front end of the driving shaft (44) extends out of the transmission cavity (42) and is connected with the driven gear (84), the lower portion of the gum dipping box (24) is connected with the supporting plate (33), the upper portion of the supporting plate (33) is provided with the stirring motor (34), the stirring motor (34) is connected with the driving gear (83) in a driving mode, the supporting rod (26) is arranged in front of the gum dipping box (24), the front end of the supporting rod (26) is connected with the first supporting frame (29) and the second supporting frame (31), the first supporting frame (29) and the second supporting frame (31) are respectively provided with the first transmission mechanism (30) and the second transmission mechanism (32), and the supporting plate (33) is provided with a notch (85) for the first transmission mechanism (30) to pass through.
2. A glove dipping apparatus as claimed in claim 1, wherein: a first worm (45) and a second worm (46) are respectively and rotatably arranged at positions on two sides of a driving shaft (44) in a transmission cavity (42), a first synchronous belt (47) is connected between the driving shaft (44) and the first worm (45), a second synchronous belt (48) is connected between the driving shaft (44) and the second worm (46), a first rotating shaft frame (49) is arranged on the side wall of the transmission cavity (42) close to one side of the first worm (45), a first rotating shaft (50) is arranged on the first rotating shaft frame (49), a first worm wheel (51) and a first bevel gear (52) are arranged on the first rotating shaft (50), the first worm wheel (51) is matched with the first worm (45), a rotating shaft seat (53) is arranged at a position above the first rotating shaft frame (49) in the transmission cavity (42), a first transmission shaft (54) is rotatably arranged in the rotating shaft seat (53), and a second bevel gear (55) is connected at the lower end of the first transmission shaft (54), the upper end of the first transmission shaft (54) is connected with a third bevel gear (56), a second rotating shaft frame (57) is arranged in the transmission cavity (42) and above the rotating shaft seat (53), a second rotating shaft (58) is rotatably arranged on the second rotating shaft frame (57), a fourth bevel gear (59) is arranged on the second rotating shaft (58), and the inner end of the second rotating shaft (58) extends into the dipping glue cavity (43) and is connected with a first stirring paddle (60).
3. A glove dipping apparatus as claimed in claim 2, wherein: a third rotating shaft frame (63) is arranged on the side wall of the transmission cavity (42) close to one side of the second worm (46), a third rotating shaft (64) is arranged on the third rotating shaft frame (63) in a rotating mode, a second worm wheel (65) and a first transmission wheel (66) are arranged on the third rotating shaft (64), the second worm wheel (65) is matched with the second worm (46), a fourth rotating shaft frame (67) is arranged in the transmission cavity (42) above the third rotating shaft frame (63) in a rotating mode, a fourth rotating shaft (68) is arranged on the fourth rotating shaft frame (67) in a rotating mode, a second transmission wheel (69) is arranged on the fourth rotating shaft (68), a second transmission belt (70) is connected between the second transmission wheel (69) and the first transmission wheel (66), and the inner end of the fourth rotating shaft (68) extends into the glue soaking cavity (43) and is connected with a second stirring paddle (71).
4. A glove dipping apparatus as claimed in claim 3, wherein: one side that soaks gluey chamber (43) is close to first stirring rake (60) is provided with first guide block (60), first guide block (60) are located the top of first stirring rake (60), thereby the thickness of first guide block (60) reduces in proper order from last to forming first spigot surface (62) in the inboard, one side that soaks gluey chamber (43) are close to second stirring rake (71) is provided with second guide block (73), second guide block (73) are located the below of second stirring rake (71), thereby the thickness of second guide block (73) reduces in proper order from supreme down and forms second spigot surface (73) in the inboard.
5. A glove dipping apparatus as claimed in claim 1, wherein: the movable table (3) comprises a supporting table (8) installed on a guide rail (2), one part of the supporting table (8) is located above the guide rail (2), one part of the supporting table outwards extends to the outer side face of the guide rail (2), a conveying groove (7) is formed in the outer side face of the guide rail (2), a conveying motor (9) is arranged on the part, extending to the outer side face of the guide rail (2), of the supporting table (8), the conveying motor (9) is connected with a conveying wheel (10) in a driving mode, the conveying wheel (10) is located in the conveying groove (7), and two movable clamping blocks (11) are arranged on the upper portion of the supporting table (8).
6. A glove dipping apparatus as claimed in claim 5, in which: a rotating groove (14) is formed in the middle of the upper portion of a supporting table (8), sliding grooves (12) are formed in two sides of the rotating groove (14), first rotating seats (16) are arranged at two ends of the rotating groove (14), a driving shaft (15) is arranged in the first rotating seats (16) in a rotating mode, first screw rods (13) are connected to two ends of the driving shaft (15), the first screw rods (13) are arranged in the sliding grooves (12), sliding blocks (17) are arranged on the first screw rods (13), the upper ends of the sliding blocks (17) are connected with the lower end of a movable clamping block (11), a motor groove (18) is formed in the position, located on the side face of the rotating groove (14), of the supporting table (8), a first screw rod motor (19) is arranged in the motor groove (18), the first screw rod motor (19) is connected with a first driving wheel (20) in a driving mode, and a first driving belt (21) is connected between the first driving wheel (20) and the driving shaft (15).
7. A glove dipping apparatus as claimed in claim 1, wherein: the first transmission mechanism (30) comprises a second transmission shaft (86) arranged on the first support frame (29), two ends of the second transmission shaft (86) are respectively connected with a first transmission gear (87) and a second transmission gear (88), the second transmission mechanism (32) comprises a support seat (89) arranged on the second support frame (31), a first mounting plate (90) and a second mounting plate (97) are arranged on the support seat (89), a third transmission shaft (91) is arranged on the first mounting plate (97), a third transmission gear (92) and a first synchronous wheel (93) are arranged on the third transmission shaft (91), a fourth transmission shaft (94) is arranged between the first mounting plate (90) and the second mounting plate (97), a fourth transmission gear (98) and a second synchronous wheel (95) are arranged on the fourth transmission shaft (94), and a third synchronous belt (96) is connected between the first synchronous wheel (93) and the second synchronous wheel (95), a fifth transmission shaft (99) is arranged on the second mounting plate (97), a fifth transmission gear (100) is arranged on the fifth transmission shaft (99), and a fourth transmission gear (98) is meshed with the fifth transmission gear (100).
8. A glove dipping apparatus as claimed in claim 1, wherein: the lower part of the glue dipping cavity (43) is connected with a conveying pipe (74), the lower part of the conveying pipe (74) is connected with a valve body (75), the middle position of the valve body (75) is rotatably provided with a valve shaft (81), two valve blocks (76) are arranged on the valve shaft (81), one end of the valve shaft (81) extends out of the valve body (75) and is connected with an adjusting hand wheel (41), the valve body (75) is connected with a liquid outlet pipe (77) and a liquid supply pipe (37), the lower part of the liquid outlet pipe (77) is connected with a liquid outlet box (78), the lower part of the liquid supply pipe (37) is connected with a liquid supply box (35), a liquid supply pump (36) is arranged on the liquid supply pipe (37), a first telescopic section (38) is arranged in the middle of the liquid supply pipe (37), and a second telescopic section (79) is arranged in the middle of the liquid outlet pipe (77).
9. A glove dipping apparatus as claimed in claim 1, wherein: the liquid supply pipe (37) is provided with a first filtering mechanism (39), and the liquid outlet pipe (77) is provided with a second filtering mechanism (80).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202111318141.4A CN113954279A (en) | 2021-11-09 | 2021-11-09 | Glove impregnation device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202111318141.4A CN113954279A (en) | 2021-11-09 | 2021-11-09 | Glove impregnation device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN113954279A true CN113954279A (en) | 2022-01-21 |
Family
ID=79469781
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202111318141.4A Withdrawn CN113954279A (en) | 2021-11-09 | 2021-11-09 | Glove impregnation device |
Country Status (1)
Country | Link |
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CN (1) | CN113954279A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115107207A (en) * | 2022-08-29 | 2022-09-27 | 江苏海思湃安防有限公司 | Centrifugal circulation rubber box for production of dipped gloves |
CN117101897A (en) * | 2023-10-24 | 2023-11-24 | 江苏瑞斯达安全防护用品有限公司 | PVA spraying coating equipment for protective glove |
-
2021
- 2021-11-09 CN CN202111318141.4A patent/CN113954279A/en not_active Withdrawn
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115107207A (en) * | 2022-08-29 | 2022-09-27 | 江苏海思湃安防有限公司 | Centrifugal circulation rubber box for production of dipped gloves |
CN115107207B (en) * | 2022-08-29 | 2023-10-20 | 宁波谦屹节能科技有限公司 | Centrifugal type annular gumming box for gum dipping glove production |
CN117101897A (en) * | 2023-10-24 | 2023-11-24 | 江苏瑞斯达安全防护用品有限公司 | PVA spraying coating equipment for protective glove |
CN117101897B (en) * | 2023-10-24 | 2024-01-26 | 江苏瑞斯达安全防护用品有限公司 | PVA spraying coating equipment for protective glove |
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Application publication date: 20220121 |