CN116638691A - Continuous production device for gum dipping gloves - Google Patents

Abstract

The invention relates to the technical field of glove production, in particular to a continuous production device for dipped gloves, which aims to overcome the defects of production and storage in the prior art and is mainly realized by the following technical scheme: the invention discloses a continuous production device for dipped gloves, which comprises a frame, a plurality of hand dies, a plurality of die frames, a processing part, a demolding part and a packaging part, wherein the processing part comprises a dipping structure, a drying structure and a trimming structure which are sequentially arranged, the demolding part comprises a demolding frame, a plurality of demolding rollers and a demolding drive, the packaging part comprises a storage structure and a packaging structure, the storage structure comprises a plurality of storage frames, a rotating part and a conveying part, the packaging structure is arranged at the tail end of the storage structure, and the device disclosed by the invention is used for finishing the dipping, drying, trimming, demolding and storage operations of the dipped gloves.

Description

Continuous production device for gum dipping gloves

Technical Field

The invention relates to the technical field of glove production, in particular to a continuous production device for dipped gloves.

Background

At present, the impregnated glove is used as a main labor protection glove, has an oil-proof effect, is mainly used in factories, oil fields, repair factories and other places, and has great social demand. When the gum dipping glove is produced, firstly, a blank (fabric glove) is sleeved on a hand mould, then the hand mould is heated, gum dipping and drying (cooling) are carried out, and finally, the printing and demoulding procedures are carried out, so that the gum dipping glove finished product is obtained.

In the prior art, after the gum dipping of the gum dipping glove is finished, excessive gum is removed through hanging drops, and then the surface gum dipping is dried through long-time drying operation, the manufacturing time is relatively long, meanwhile, the gum of the hanging drops possibly forms gum points on the surface of the glove, the surface quality of the gum dipping glove is affected, and the gum is not pasted when the object is grabbed; in the production process of the gum dipping glove, the gum dipping glove is inconvenient to separate from the hand mould, the gum dipping glove is not directly tidied, stored and packaged after being separated, and the gum dipping glove is transported and packaged after being stored manually, so that the manual labor intensity is increased in the process.

Disclosure of Invention

Therefore, the technical problem to be solved by the invention is to overcome the defects of production and storage in the prior art, thereby providing a continuous production device for dipped gloves.

The technical aim of the invention is realized by the following technical scheme:

the utility model provides a gum dipping gloves continuous production device, includes frame, a plurality of hand mould and a plurality of mould frame, hand mould array sets up on the mould frame, be equipped with the movable block at a plurality of joint mould frame both ends in the frame, the mould frame slides through the movable block and sets up in the frame, the draw-in interface has been seted up to corresponding mould frame on the movable block, still includes:

the processing component comprises a dipping structure, a drying structure and a trimming structure which are sequentially arranged, wherein the dipping structure is arranged in a frame, the dipping structure comprises a dipping drive and a dipping groove, the dipping groove is vertically arranged in the frame in a sliding manner, the dipping drive is connected with a die frame and drives the die frame to rotate relative to the frame, the drying structure is arranged on the frame, the trimming structure is rotatably arranged on the frame in a positioning manner, and the trimming structure comprises surface trimming and side trimming;

the demolding component is arranged on one side of the trimming structure, which is far away from the drying structure, and comprises a demolding frame, a plurality of demolding rollers and demolding drives, wherein the demolding drives are connected with the demolding rollers and drive the demolding rollers to move relatively, the demolding rollers are arranged on the demolding frame in a circumferential array manner, the demolding frame is arranged in a sliding manner relative to the frame, and an adjusting structure for driving the demolding frame to move is further arranged on the frame;

the packaging component, packaging component sets up the below of processing part one side is kept away from to the drawing of patterns part, packaging component is including accomodating structure and packaging structure, accomodate the structure and include a plurality of storage racks, rotating member and conveyer, accomodate the rack array setting and just by the conveyer drive on the conveyer, the rotating member drive is accomodate the rack and is rotated, packaging structure sets up the end at accomodating the structure.

Through adopting above-mentioned technical scheme, after knitting the glove cover of accomplishing establishes on the hand mould along with mould frame motion, realize dipping, sizing material stoving and repair operation, repair the process and get rid of the gluey point that hanging drop and drying left, later carry out automatic drawing of patterns by drawing of patterns part on the hand mould dipping glove, dipping glove temperature is too high when avoiding artifical drawing of patterns causes the scald, the security of picking up of dipping glove is effectively improved, the dipping glove of drawing of patterns moves along with the drawing of patterns frame, dipping glove falls on accomodate the frame, accomodate the frame arrangement and send into packaging structure with dipping glove in proper order, realize the accomodating and the packing of dipping glove, effectively improve the production efficiency of dipping glove, and reduce artifical intensity of labour, the device of the invention easy operation, excellent in use effect. According to the device, the dipping, drying, trimming, demolding and storage operations of the dipped glove are completed through the sequentially arranged structure, the automatic structure is adopted for operation in the demolding process, the labor intensity is reduced, the demolded glove is directly tidied and packaged in the storage process, the subsequent packaging and transferring work is facilitated, the consistency of products is guaranteed, the product quality is improved, and the production efficiency is effectively improved.

Further, the gum dipping drive comprises a plurality of gum dipping motors, a plurality of clamping blocks and a plurality of clamping drives, the clamping blocks are vertically arranged in the frame in pairs, arc-shaped clamping grooves are formed in one surfaces, close to each other, of the clamping blocks, the clamping grooves are formed in two ends of the die frame and are clamped with two ends of the die frame, clamping discs are correspondingly arranged on the die frame in an extending mode, the two clamping blocks on one side of the clamping drive frame are close to or far away from each other, and the gum dipping motors drive the die frame to rotate relative to the frame.

Through adopting above-mentioned technical scheme, press from both sides tight mould frame both sides of tight piece clamp earlier, rethread gum dipping motor drive mould frame rotates to cooperate the gum dipping groove to go up and down, accomplish the gum dipping operation of gloves on the hand mould.

Further, the surface finishing comprises a first finishing barrel and a second finishing barrel which are arranged in pairs, the first finishing barrel is arranged above the second finishing barrel, the axes of the first finishing barrel and the second finishing barrel are parallel to the width direction of the frame, the second finishing barrel is arranged in a sliding mode vertically relative to the frame, reset pieces are further arranged at two ends of the second finishing barrel, and each reset piece comprises a telescopic rod and a tension spring sleeved on the telescopic rod.

Through adopting above-mentioned technical scheme, get rid of the unnecessary sizing material of gum dipping glove surface through first trimmer barrel and second trimmer barrel earlier, first trimmer barrel can adopt to glue Mao Caizhi, adheres knitting glove hair side's hairiness, and second trimmer barrel adopts dull polish material and gum dipping face to rub, gets rid of unnecessary sizing material to increase the granule sense of gum face, increase the gum face friction.

Further, the side trimming comprises a plurality of side rollers and a plurality of trimming strips, the trimming strips are arranged between two different side rollers, the trimming strips are driven by a trimming member, the trimming member comprises a trimming drive and a trimming rod, the trimming drive is connected with the top of the trimming rod, and the bottom of the trimming rod is movably connected with the trimming strips.

Through adopting above-mentioned technical scheme, the edging roller is maintained gloves left and right sides position, and edging strip friction fingertip position (this position is the easiest to drip the condensation sizing material), edging drive control edging strip bending degree can be adjusted according to the gloves of different length fingers.

Further, the demolding roller comprises a roller and a roller frame which are arranged in pairs, the roller frame is fixedly arranged on the demolding frame, the roller is extended with a demolding rod which is hinged with the roller frame, the demolding driving fixed end is fixed on the roller frame, the movable end is connected with the demolding rod, and the demolding driving is also arranged in pairs.

By adopting the technical scheme, the roller is matched with the roller frame, the dipped glove sleeved on the hand mould is clamped, and the demoulding operation of the dipped glove is completed.

Further, the demoulding frame both ends are equipped with the control block, the control block is connected with adjustment structure, adjustment structure includes sliding part and rotating part, sliding part is the hydraulic pump of being connected with the control block, sliding part fixes in the frame, rotating part is including fixing the rotation motor on the control block, the cover establish the rotation gear on the rotation motor and with the demoulding gear fixed at demoulding frame both ends, rotation gear and demoulding gear meshing, demoulding frame both ends still fix a position and rotate in the control block.

Through adopting above-mentioned technical scheme, control block cooperation adjustment structure motion realizes taking off the left and right sides sideslip of die carrier and the rotation of drawing of patterns frame self to control take off the die carrier and be close to the die carrier clamp and get the gum dipping gloves, keep away from the die carrier back rotatory and place the gum dipping gloves of taking off on accomodating the frame, make things convenient for follow-up accomodating the operation.

Further, accomodate the frame and include receiving dish and spacing post, spacing post top is inwards inclined plane, receiving the dish and including the carousel that is fixed with the conveyer and be connected with the rotary part, the rotary disk location rotates and sets up on the carousel, spacing post sets up in the rotary disk four corners, the rotary disk diameter is less than the carousel diameter.

Through adopting above-mentioned technical scheme, the rotary disk is rotatory by rotating member control behind the receiving impregnation gloves, and the conveying dish is sent packaging structure by the horizontal vertical gloves of being convenient for after carrying the rotation along the conveying member, carries out the packing operation, and this process integration reduces artifical intensity of labour.

Further, the rotating piece comprises a transmission part and a rotation driving part, the rotation driving part is fixed in the frame and is connected with the transmission part, the number of the transmission parts corresponds to that of the rotating discs, the transmission part comprises a first electromagnet and a second electromagnet, the first electromagnet is arranged at the bottom of the rotating discs, the second electromagnet is fixed at the top of the rotation driving part, and the second electromagnet is mutually attracted with the first electromagnet after being electrified.

Through adopting above-mentioned technical scheme, rotating member and conveying piece independent control avoid interfering each other between the two, and the transmission part cooperation rotary drive of setting to realize rotating when needing, do not influence the purpose of conveying when not needing.

Further, the packaging structure comprises a conveying belt, a packaging piece, a blanking belt and a blanking frame, wherein the packaging piece is an automatic laminating machine, the packaging piece is arranged above the conveying belt and close to one side of the blanking belt, the blanking belt is obliquely arranged, one side of the blanking belt, away from the conveying belt, is lower than one side, close to the conveying belt, of the blanking belt, and the blanking frame is arranged on one side, away from the conveying belt, of the blanking belt.

Through adopting above-mentioned technical scheme, set up packaging structure, package integration setting after realizing the drawing of patterns avoids the manual work to accomodate the back and transports the packing again, has increased production efficiency.

Further, the packaging piece is close to one side of the conveyor belt and is further provided with a carding piece, the carding piece is a carding roller, two ends of the carding piece are positioned and rotatably arranged on one side of the packaging piece, and the packaging structure further comprises a counting device arranged at the tail end of the packaging piece.

Through adopting above-mentioned technical scheme, through the extrusion glove of carding before the encapsulation of gum dipping glove, the too inflation of glove influences the packing effect when avoiding the encapsulation, and the count device of setting can the real-time recording encapsulation the glove number, avoids the inaccuracy of manual counting.

In summary, the technical scheme of the invention has the following advantages:

1. according to the continuous production device for the impregnated gloves, the impregnation, drying, trimming, demolding and storage operations of the impregnated gloves are completed through the plurality of structures which are sequentially arranged, the automatic structure is adopted for operation in the demolding process, the labor intensity is reduced, the demolded gloves are directly tidied and packaged in the storage process, the subsequent packaging and transferring work is facilitated, the consistency of products is guaranteed, the product quality is improved, and the production efficiency is effectively improved.

2. According to the continuous production device for the gum dipping glove, provided by the invention, the trimming structure is arranged to remove the gum points on the surface of the gum dipping glove, the polishing operation is carried out on the gum surface through surface trimming and side trimming, the effect of the protrusion of the gum points on the grasping is avoided, meanwhile, the grain sense of the gum surface is increased through polishing, the friction force of the gum surface of the gum dipping glove is improved, and the quality of the gum dipping glove product is improved.

3. According to the continuous production device for the impregnated gloves, provided by the invention, the demolding part is arranged to automatically demold the impregnated gloves, so that the picking safety of the impregnated gloves is effectively ensured, the packaging part is arranged, the impregnated gloves are dropped on the storage rack, the storage rack is used for sorting and sequentially feeding the impregnated gloves into the packaging structure, the integrated design of storage and packaging of the impregnated gloves is realized, the production efficiency of the impregnated gloves is effectively improved, and the labor intensity is reduced.

Drawings

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

FIG. 1 is a schematic view showing the overall structure of a continuous production apparatus for dipped gloves according to one embodiment of the present invention;

FIG. 2 is a schematic view of a part of a dipping structure according to an embodiment of the present invention;

FIG. 3 is a schematic partial structural view of a finishing structure provided in one embodiment of the present invention;

FIG. 4 is a schematic view of a partial construction of a side edge trim provided in one embodiment of the present invention;

FIG. 5 is a schematic partial structure of a mold release component provided in one embodiment of the present invention;

FIG. 6 is a schematic view of a partial structure of a wrapper component provided in one embodiment of the present invention;

fig. 7 is a schematic partial structure of a housing structure according to an embodiment of the present invention.

Reference numerals illustrate:

1. a frame; 11. a moving block; 111. a card interface; 12. adjusting the structure; 121. a sliding member; 122. a rotating member; 1221. rotating the gear; 1222. demolding gears; 1223. a rotating motor; 2. hand mould; 3. a mold frame; 31. clamping a disc; 4. machining the component; 5. a gum dipping structure; 51. dipping and driving; 511. a gum dipping motor; 512. a clamping block; 5121. a clamping groove; 513. clamping driving; 52. a gum dipping tank; 6. a drying structure; 7. trimming the structure; 71. surface finishing; 711. a first finishing barrel; 712. a second finishing barrel; 7121. a reset member; 71211. a telescopic rod; 71212. a tension spring; 72. trimming the side edges; 721. a side roller; 722. trimming strips; 723. an edge trimmer; 7231. trimming and driving; 7232. trimming the edge rod; 8. demolding a part; 81. removing the die carrier; 811. a control block; 82. a demolding roller; 821. a roller; 8211. a stripper rod; 822. a roller frame; 83. demolding and driving; 9. a packaging member; 91. a storage structure; 911. a storage rack; 9111. a receiving tray; 91111. a transfer tray; 91112. a rotating disc; 9112. a limit column; 912. a rotating member; 9121. a transmission member; 91211. a first electromagnet; 91212. a second electromagnet; 9122. rotationally driving; 913. a transfer member; 92. a package structure; 921. a conveyor belt; 922. a package; 9221. a carding member; 923. a blanking belt; 924. a blanking frame; 925. a counting device.

Detailed Description

The invention will be described in further detail below with reference to the drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The invention discloses a continuous production device for impregnated gloves, which is shown in fig. 1 and comprises a frame 1, a plurality of hand dies 2 and a plurality of die frames 3, wherein the hand dies 2 are arranged along the array of the length direction of the die frames 3, the die frames 3 are arranged on the frame 1 in a sliding manner, the sliding structure of the die frames 3 adopts chain type and other conveying, a moving block 11 is arranged in the frame 1 and at two ends of the die frames 3, an upward clamping port 111 is formed on the moving block 11 corresponding to the die frames 3, the continuous production device further comprises a processing part 4, a demolding part 8 and a packaging part 9, the processing part 4 comprises an impregnated structure 5, a drying structure 6 and a trimming structure 7 which are sequentially arranged from right to left, the demolding part 8 is arranged at one side of the trimming structure 7, the packaging part 9 is arranged below one side of the demolding part 8, the packaging part 9 comprises a storage structure 91 and a packaging structure 92, and the impregnated glove conveying direction of the packaging part 9 is perpendicular to the impregnated glove conveying direction of the processing part 4.

As shown in fig. 2, the dipping structure 5 comprises a dipping drive 51 and a dipping tank 52, the dipping tank 52 is vertically slidably arranged in the frame 1, the dipping drive 51 is connected with the mold frame 3 and drives the mold frame 3 to rotate relative to the frame 1, the drying structure 6 is arranged on the frame 1, the dipped glove is driven to rotate by the dipping motor 511, and the dipped glove directly enters the drying structure 6 for drying after hanging drop operation. The dipping drive 51 comprises a plurality of dipping motors 511, a plurality of clamping blocks 512 and a plurality of clamping drives 513, the dipping drive 51 is arranged at two ends of the mold frame 3, the clamping blocks 512 at each end are vertically arranged in the machine frame 1 in pairs, an arc-shaped clamping groove 5121 is formed in one side, close to each other, of each clamping block 512, the clamping groove 5121 is clamped with two ends of the mold frame 3, the mold frame 3 is correspondingly provided with the clamping disc 31 in an extending mode, the mold frame 3 and the clamping disc 31 are installed in a positioning and rotating mode, the clamping drives 513 drive the two clamping blocks 512 at one side of the machine frame 1 to be close to or far away from each other, and the dipping motor 511 drives the mold frame 3 to rotate relative to the machine frame 1.

The movable block 11 drives the die frame 3 to move to the dipping station, the clamping blocks 512 are firstly mutually close to the clamping disc 31, and at the moment, the dipping motor 511 is abutted against the die frame 3 through a pair of friction wheels, so that the die frame 3 is driven to rotate through the rotation of the dipping motor 511, the movement of the hand die 2 is realized, the hand die 2 is matched with the rising dipping tank 52, and the hand die 2 is inclined to enable part of the hand die to be immersed into the dipping tank 52, so that the half dipping operation of the fingers and the palm center of the knitted glove is completed.

As shown in fig. 3, the trimming structure 7 includes a surface trimming 71 and a side trimming 72, the surface trimming 71 includes a first trimming cylinder 711 and a second trimming cylinder 712 which are arranged in pairs, the first trimming cylinder 711 is arranged above the second trimming cylinder 712, the axes of the first trimming cylinder 711 and the second trimming cylinder 712 are parallel to the width direction of the frame 1, the second trimming cylinder 712 is vertically slidably arranged relative to the frame 1, two ends of the second trimming cylinder 712 are also provided with reset members 7121, the reset members 7121 include a telescopic rod 71211 and a tension spring 71212 sleeved on the telescopic rod 71211, the top of the telescopic rod 71211 is abutted against the second trimming cylinder 712, the first trimming cylinder 711 can adopt adhesive Mao Caizhi to adhere hairiness of the knitting glove haired surface, the second trimming cylinder 712 adopts frosted material to rub with the impregnated surface, the superfluous sizing material is removed, the granular feel of the adhesive surface is increased, and the adhesive surface friction is increased.

The die frame 3 drives the hand die 2 to move forward continuously, the upper surface and the lower surface of the glove on the hand die 2 are respectively contacted with the first trimming cylinder 711 and the second trimming cylinder 712 to finish rolling friction operation, and as the thickness of the finger tip of the hand die 2 is smaller than that of the palm, the second trimming cylinder 712 is provided with the reset piece 7121, so that the second trimming cylinder 712 can be smoothly pressed down and always abutted against the palm when the palm passes through, structural interference can be avoided, the influence on the movement can be avoided, and the trimming operation can be smoothly finished.

As shown in fig. 3 and 4, side trim 72 includes a plurality of side rollers 721 and a plurality of trim strips 722, the axes of side rollers 721 being vertical, trim strips 722 being disposed between two different side rollers 721, trim strips 722 being driven by a trimmer 723, trimmer 723 including a trimmer drive 7231 and a trimmer bar 7232, trimmer drive 7231 being coupled to the top of trimmer bar 7232, the bottom of trimmer bar 7232 being movably coupled to trim strips 722. The trimming roller trims the left and right sides of the glove, the trimming strip 722 rubs the fingertip position (the position is most likely to drip condensed glue material), and the trimming drive 7231 controls the bending degree of the two sides of the trimming strip 722, so that the glove can be adjusted according to the gloves with different fingers.

As shown in fig. 5, the demolding component 8 includes a demolding frame 81, a plurality of demolding rollers 82 and demolding driving 83, the demolding driving 83 is connected with the demolding rollers 82 and drives the demolding rollers 82 to move relatively, the demolding rollers 82 are circumferentially arranged on the demolding frame 81 in an array manner, the demolding frame 81 is slidably arranged relative to the machine frame 1, and the machine frame 1 is further provided with an adjusting structure 12 for driving the demolding frame 81 to move.

The demolding roller 82 comprises a roller 821 and a roller frame 822 connected with the roller 821 in pairs, the roller frame 822 is fixedly arranged on the demolding frame 81 in a circumferential array, the roller 821 is extended with a demolding rod 8211 hinged with the roller frame 822, the fixed end of the demolding drive 83 is fixed on the roller frame 822, the movable end is connected with the demolding rod 8211, and the demolding drive 83 is also arranged in pairs.

When the glove demolding device is used, the demolding drive 83 contracts to drive the pair of demolding rods 8211 to move, the distance between the demolding rods 8211 is enlarged, then the demolding drive 83 stretches to enable the pair of upper rollers 821 and the pair of lower rollers 821 to be close to each other, the rollers 821 are close to each other to clamp the glove, then the demolding frame 81 moves backwards to be away from the hand mold 2 to drive the glove to be away from the hand mold 2, and demolding operation is completed.

As shown in fig. 5 and 6, the two ends of the demoulding frame 81 are provided with control blocks 811, the control blocks 811 are connected with the adjusting structure 12, the adjusting structure 12 comprises a sliding part 121 and a rotating part 122, the sliding part 121 is a hydraulic pump connected with the control blocks 811, the sliding part 121 is fixed in the frame 1, the rotating part 122 comprises a rotating motor 1223 fixed on the control blocks 811, a rotating gear 1221 sleeved on the rotating motor 1223 and demoulding gears 1222 fixed at two ends of the demoulding frame 81, the rotating gear 1221 is meshed with the demoulding gears 1222, and two ends of the demoulding frame 81 are positioned and rotated in the control blocks 811.

The adjusting structure 12 controls the demolding frame 81 to be close to the mold frame 3, the demolding driver 83 controls the roller 821 to be opened and then clamps the dipped glove, then the adjusting structure 12 controls the demolding frame 81 to be moved backwards to separate the dipped glove from the hand mold 2, the rotating part 122 rotates the demolding frame 81 to rotate the roller 821 clamping the dipped glove away from the clamping position, and the empty roller 821 is operated to continuously clamp the dipped glove.

As shown in fig. 6 and 7, the housing structure 91 includes a plurality of housing racks 911, a rotating member 912 and a conveying member 913, the housing racks 911 are arranged on the conveying member 913 and driven by the conveying member 913, the rotating member 912 drives the housing racks 911 to rotate, and the packaging structure 92 is arranged at the end of the housing structure 91. The storage rack 911 comprises a receiving tray 9111 and a limiting column 9112, the limiting column 9112 is arranged at four corners of a rotating disk 91112, the top of the limiting column 9112 is an inclined surface inclined inwards, the receiving tray 9111 comprises a conveying tray 91111 fixed with a conveying member 913 and a rotating tray 91112 connected with the rotating member 912, the rotating tray 91112 is positioned and rotated on the conveying tray 91111, the diameter of the rotating tray 91112 is smaller than that of the conveying tray 91111, the rotating tray 91112 is controlled to rotate by the rotating member 912 after receiving the dipped gloves, the conveying tray 91111 is conveyed to the packaging structure 92 by the gloves which are transversely convenient to be vertical after being conveyed and rotated along the conveying member 913, and packaging operation is carried out.

The rotary member 912 includes a transmission part 9121 and a rotary drive 9122, the rotary drive 9122 is fixed in the frame 1 and is connected with the transmission part 9121, the number of the transmission part 9121 corresponds to the number of the rotary disks 91112, the transmission part 9121 includes a first electromagnet 91211 and a second electromagnet 91212, the first electromagnet 91211 is arranged at the bottom of the rotary disk 91112, the second electromagnet 91212 is fixed at the top of the rotary drive 9122, and the second electromagnet 91212 is attracted to the first electromagnet 91211 after being electrified.

When the demolding frame 81 moves leftwards to be close to the storage structure 91, and then a pair of rollers 821 on the demolding frame 81 rotate to be level with the upper surface of the storage frame 911, the demolding drive 83 is controlled to shrink, the rollers 821 are opened to enable the gloves to fall onto the carrying tray 9111, the glove demolding structure of the storage frame 911 is used for demolding, at the moment, the glove position is fingertips rightwards, the second electromagnet 91212 is electrified, the second electromagnet 91212 and the first electromagnet 91211 are attracted mutually, the rotary drive 9122 is started again, the rotary drive 9122 rotates ninety degrees, fingertips of the gloves are backwards controlled to enable the transverse gloves to be vertical, the vertical gloves are more convenient to package, the second electromagnet 91212 is powered off, the conveying part 913 conveys the storage frame 911 to the packaging structure 92, the rotary part 912 and the conveying part 913 are independently controlled to avoid mutual interference between the rotary part and the conveying part 9121, and the rotary drive 9122 are matched, so that the purpose of conveying is achieved when needed, and the purpose of not being affected when needed is achieved.

As shown in fig. 7, the packaging structure 92 includes a conveyor belt 921, a packaging member 922, a blanking belt 923 and a blanking frame 924, the packaging member 922 is an automatic laminating machine, the packaging member 922 is arranged above the conveyor belt 921 and close to one side of the blanking belt 923, the blanking belt 923 is obliquely arranged, one side of the blanking belt 923, which is far away from the conveyor belt 921, is lower than one side, which is close to the conveyor belt 921, of the blanking belt 923, the blanking frame 924 is arranged on one side, which is far away from the conveyor belt 921, of the packaging member 922, a carding member 9221 is a carding roller, two ends of the carding member 9221 are arranged above the conveyor belt 921 in a positioning and rotating manner, the carding member 9221 is arranged on the left side of the packaging member 922, and the packaging structure 92 further comprises a counting device 925 which is arranged at the tail end of the packaging member 922. Set up packaging structure 92, package integration setting after realizing the drawing of patterns avoids the manual work to accomodate the back again and transports the packing, through carding 9221 extrusion gloves before the encapsulation of gum dipping gloves, the too inflation of gloves influences the packaging effect when avoiding the encapsulation, and the counter 925 of setting can the real-time recording encapsulation gloves number, avoids the inaccuracy of manual counting.

The working principle and the using method of the continuous production device for the impregnated glove are as follows: after the knitted glove is sleeved on the hand die 2 and moves along with the die frame 3, gum dipping, gum material drying and trimming operations are realized on the processing part 4, gum points are removed and the surface is polished in the trimming process, then the demolding part 8 automatically demolds the gum dipped glove on the hand die 2, the demolded gum dipped glove moves along with the demolding frame 81, then the gum dipped glove falls on the storage frame 911, and the storage frame 911 finishes and sequentially sends the gum dipped glove into the packaging structure 92, so that storage and packaging of the gum dipped glove are realized.

While the foregoing description illustrates and describes the preferred embodiments of the present invention, as noted above, it is to be understood that the invention is not limited to the forms disclosed herein but is not to be construed as excluding other embodiments, and that various other combinations, modifications and environments are possible and may be made within the scope of the inventive concepts described herein, either by way of the foregoing teachings or by those of skill or knowledge of the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.

Claims (10)

1. The utility model provides a gum dipping gloves continuous production device, includes frame (1), a plurality of hand mould (2) and a plurality of mould frame (3), hand mould (2) array setting is on mould frame (3), be equipped with movable block (11) at a plurality of joint mould frame (3) both ends on frame (1), mould frame (3) slide through movable block (11) and set up on frame (1), draw-in interface (111) have been seted up to corresponding mould frame (3) on movable block (11), its characterized in that still includes:

the processing component (4), processing component (4) is including the gumming structure (5), stoving structure (6) and the structure of repairing (7) that set gradually, gumming structure (5) set up in frame (1), gumming structure (5) are including gumming drive (51) and gumming groove (52), gumming groove (52) vertical slip sets up in frame (1), gumming drive (51) are connected and drive mould frame (3) rotate relative frame (1) with mould frame (3), stoving structure (6) set up on frame (1), repairing structure (7) location rotation is installed on frame (1), repairing structure (7) are including surface finishing (71) and side and are repaired (72);

the demolding component (8), demolding component (8) is arranged on one side, far away from the drying structure (6), of the trimming structure (7), the demolding component (8) comprises a demolding frame (81), a plurality of demolding rollers (82) and a plurality of demolding drives (83), the demolding drives (83) are connected with the demolding rollers (82) and drive the demolding rollers (82) to move relatively, the demolding rollers (82) are arranged on the demolding frame (81) in a circumferential array, the demolding frame (81) slides relative to the rack (1), and an adjusting structure (12) for driving the demolding frame (81) to move is further arranged on the rack (1);

packaging part (9), packaging part (9) set up the below of keeping away from processing part (4) one side at drawing of patterns part (8), packaging part (9) are including accomodating structure (91) and packaging structure (92), accomodate structure (91) including a plurality of accomodates frame (911), rotating member (912) and conveyer (913), accomodate frame (911) array setting and by conveyer (913) drive on conveyer (913), rotating member (912) drive accomodates frame (911) rotation, packaging structure (92) set up the end at accomodating structure (91).

2. The continuous production device for the impregnated glove according to claim 1, wherein the impregnated drive (51) comprises a plurality of impregnated motors (511), a plurality of clamping blocks (512) and a plurality of clamping drives (513), the clamping blocks (512) are vertically arranged in the frame (1) in pairs, arc-shaped clamping grooves (5121) are formed in the mutually adjacent surfaces of the clamping blocks (512), the clamping grooves (5121) are formed in two ends of the mold frame (3) and are clamped with two ends of the mold frame (3), clamping discs (31) extend on the mold frame (3) corresponding to the clamping grooves (5121), the two clamping blocks (512) on one side of the frame (1) are driven by the clamping drives (513) to mutually approach or separate, and the mold frame (3) is driven by the impregnated motors (511) to rotate relative to the frame (1).

3. The continuous production device for impregnated gloves according to claim 1, wherein the surface finishing (71) comprises a first finishing cylinder (711) and a second finishing cylinder (712) which are arranged in pairs, the first finishing cylinder (711) is arranged above the second finishing cylinder (712), the axes of the first finishing cylinder (711) and the second finishing cylinder (712) are parallel to the width direction of the frame (1), the second finishing cylinder (712) is vertically slidingly arranged relative to the frame (1), two ends of the second finishing cylinder (712) are also provided with reset pieces (7121), and the reset pieces (7121) comprise telescopic rods (71211) and tension springs (71212) sleeved on the telescopic rods (71211).

4. A continuous production device for dipped gloves according to claim 3 characterised in that the side trimming (72) comprises a plurality of side rollers (721) and a plurality of trimming strips (722), the trimming strips (722) are arranged between two different side rollers (721), the trimming strips (722) are driven by trimming means (723), the trimming means (723) comprise a trimming drive (7231) and a trimming bar (7232), the trimming drive (7231) is connected to the top of the trimming bar (7232), and the bottom of the trimming bar (7232) is movably connected to the trimming strips (722).

5. A continuous production device for dipped gloves according to claim 1, characterised in that the demoulding roller (82) comprises a roller (821) and a roller frame (822) which are arranged in pairs, the roller frame (822) is fixedly arranged on the demoulding frame (81), the roller (821) is extended with a demoulding rod (8211) which is hinged with the roller frame (822), the fixing end of the demoulding drive (83) is fixed on the roller frame (822), the movable end is connected with the demoulding rod (8211), and the demoulding drive (83) is also arranged in pairs.

6. The continuous production device for gum dipping gloves according to claim 5, characterized in that control blocks (811) are arranged at two ends of the demoulding frame (81), the control blocks (811) are connected with an adjusting structure (12), the adjusting structure (12) comprises a sliding component (121) and a rotating component (122), the sliding component (121) is a hydraulic pump connected with the control blocks (811), the sliding component (121) is fixed in a frame (1), the rotating component (122) comprises a rotating motor (1223) fixed on the control blocks (811), a rotating gear (1221) sleeved on the rotating motor (1223) and demoulding gears (1222) fixed at two ends of the demoulding frame (81), the rotating gear (1221) is meshed with the demoulding gears (1222), and two ends of the demoulding frame (81) are positioned and rotated in the control blocks (811).

7. The continuous production device for dipped gloves according to claim 1, wherein the containing frame (911) comprises a receiving disc (9111) and a limiting column (9112), the top of the limiting column (9112) is an inclined surface inclined inwards, the receiving disc (9111) comprises a conveying disc (91111) fixed with a conveying piece (913) and a rotating disc (91112) connected with a rotating piece (912), the rotating disc (91112) is positioned and rotated on the conveying disc (91111), the limiting column (9112) is arranged at four corners of the rotating disc (91112), and the diameter of the rotating disc (91112) is smaller than that of the conveying disc (91111).

8. The continuous production device for dipped gloves according to claim 7, characterised in that the rotary member (912) comprises a transmission part (9121) and a rotary drive (9122), the rotary drive (9122) is fixed in the frame (1) and is connected with the transmission part (9121), the number of the transmission parts (9121) corresponds to the number of the rotary discs (91112), the transmission part (9121) comprises a first electromagnet (91211) and a second electromagnet (91212), the first electromagnet (91211) is arranged at the bottom of the rotary disc (91112), the second electromagnet (91212) is fixed at the top of the rotary drive (9122), and the second electromagnet (91212) is mutually attracted with the first electromagnet (91211) after being electrified.

9. A continuous production device for dipped gloves according to claim 8, characterised in that: packaging structure (92) is including conveyer belt (921), package piece (922), blanking area (923) and blanking frame (924), package piece (922) is automatic laminating machine, package piece (922) set up and are close to blanking area (923) one side above conveyer belt (921), blanking area (923) slope sets up, blanking area (923) are kept away from conveyer belt (921) one side and are less than being close to conveyer belt (921) one side, blanking frame (924) set up and keep away from conveyer belt (921) one side in blanking area (923).

10. A continuous production device for dipped gloves according to claim 9, characterised in that: one side that is close to conveyer belt (921) of encapsulation spare (922) still is equipped with carding piece (9221), carding piece (9221) is the carding roller, carding piece (9221) both ends location rotation is installed in encapsulation spare (922) one side, encapsulation structure (92) still including setting up counting assembly (925) at the terminal of encapsulation spare (922).