CN115091672B - Full-automatic production equipment for chainless gloves - Google Patents

Abstract

The invention discloses full-automatic production equipment for chainless gloves, which comprises an acid-base cleaning device for cleaning a hand mould; the right side of the acid-base cleaning device is connected with a coagulant soaking device, the back of the coagulant soaking device is connected with a gum dipping device, and the left side of the gum dipping device is sequentially connected with a polymer soaking device, a starch soaking device and a hemming device; the right side of the hemming device is connected with a two-section type transmission device for transmitting the hemmed hand die, and the right side of the two-section type transmission device is connected with a demoulding device. The glove mould has the characteristics of simplicity and convenience in installation, high production efficiency, high automation degree and more compact overall structure of the glove produced by production, and can quickly reduce impurities attached to the surface of the glove mould, so that the surface of the glove mould is cleaner, normal and smooth production of the glove is ensured, the demoulding effect of the glove is improved, the glove is conveniently and quickly demoulded, and the overall quality of the glove can be improved.

Description

Full-automatic production equipment for chainless gloves

Technical Field

The invention relates to the technical field of glove production equipment, in particular to full-automatic production equipment for chainless gloves.

Background

The glove is a hand thermal insulation or labor protection article and also has decoration, is a thermal insulation necessity, or is used as a medical antibacterial and industrial protection article, and is widely used in industries such as household labor, electronics, chemical industry, aquaculture, glass, food and the like for factory protection, hospitals, scientific research and the like; with the continuous development of technology and the continuous expansion of application fields, glove production machines are also developed, glove production needs to use hand molds, and finished gloves are produced through acid washing, alkali washing, coagulant soaking, gum dipping, polymer soaking, curling and demolding processes; most of the glove production machines of the present glove production machines are used separately, namely production equipment such as acid washing machines and alkali washing machines are respectively arranged on production lines in production intervals, the degree of automation is low, and impurities such as more greasy dirt are often carried on the surfaces of hand molds, so that glove production materials on the hand molds are not easy to combine together compactly, the glove is easy to break and damage, and the glove is difficult to separate from the hand molds rapidly in demolding process, so that the overall quality and production efficiency of the glove are affected.

Disclosure of Invention

The invention aims to provide full-automatic production equipment for chainless gloves, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: a full-automatic production device of chainless gloves comprises an acid-base cleaning device for cleaning a hand mould; the right side of the acid-base cleaning device is connected with a coagulant soaking device, and the acid-base cleaning device comprises an acid washing device, a hot water brushing device and an alkaline washing device which are sequentially connected into a whole; the back of the coagulant soaking device is connected with a gum dipping device, and the left side of the gum dipping device is sequentially connected with a polymer soaking device, a starch soaking device and a hemming device; the right side of the hemming device is connected with a two-section type transmission device for transmitting the hemmed hand die, the right side of the two-section type transmission device is connected with a demoulding device, and the demoulding device is fixed on the left side of the pickling device.

Preferably, the hot water brushing device comprises a brushing group, a driving part and a water collecting part, wherein the driving part is in transmission connection with the brushing group and drives the brushing group to rotate so as to realize rotary brushing on the hand mould, the brushing group consists of at least two groups of brush discs, and a space for the hand mould to be vertically arranged is reserved between every two adjacent brush discs.

Preferably, the water collecting part is used for carrying out a hot water washing process on the hand mould of the glove production line, and the water collecting part adopts a hot water tank or a hot water spray pipe.

Preferably, the gum dipping equipment comprises a first gum dipping device and a second gum dipping device, a first drying device is connected between the first gum dipping device and the coagulant dipping device, and a first drop hanging mechanism is connected to the left side of the first gum dipping device; a second drying device is connected between the second gum dipping device and the first drop hanging mechanism, the left side of the second gum dipping device is connected with the second drop hanging mechanism, and the left side of the second drop hanging mechanism is connected with the front leaching mechanism; a third drying device is connected between the front leaching mechanism and the polymer soaking device, and a fourth drying device is connected between the polymer soaking device and the starch soaking device.

Preferably, the first drying device, the second drying device, the third drying device and the fourth drying device all adopt a microwave drying mode or a cold and hot air drying mode to realize drying treatment on the hand mould, and the microwave drying mode adopts a microwave oven and the cold and hot air drying mode adopts a fan.

Preferably, the first drop hanging mechanism and the second drop hanging mechanism both comprise roller walking frames, and the roller walking frames are used for driving the hand mould to longitudinally move towards the installation position of the leaching mechanism so as to realize the drop hanging process.

Preferably, a rear leaching mechanism is connected between the starch soaking device and the hemming device, and the rear leaching mechanism and the front leaching mechanism both comprise a guide rail, a pulley frame which is connected on the guide rail in a sliding way, supporting rods which are arranged on two sides of the pulley frame, and a supporting plate which is arranged on the supporting rods and is used for supporting the hand mould.

Preferably, the hemming device comprises a hemming roller and a limiting part which is positioned above the hemming roller and used for limiting the position of the hand die, and the limiting part comprises a blocking plate which is transversely positioned right above the hemming roller.

Preferably, the two-stage transmission device comprises a first-stage transmission mechanism connected with the hemming device and a second-stage transmission mechanism connected to the right side of the first-stage transmission mechanism, wherein the first-stage transmission mechanism is used for realizing pre-demolding treatment on gloves on a hand mold after hemming in cooperation with the hemming device, and both the first-stage transmission mechanism and the second-stage transmission mechanism comprise a transmission wheel and a transmission belt wound on the transmission wheel.

Preferably, the demolding device comprises a suction roller and a demolding roller for demolding the glove on the hand mold, and a conveyor for conveying the finished glove after demolding.

The beneficial effects of the invention are as follows:

the glove mold has the advantages of integrating the functions of automatic acid-alkali washing, automatic gum dipping, automatic hemming and automatic demolding of the hand mold, along with simple and convenient installation, high production efficiency, high degree of automation and more compact overall structure of the glove obtained by production, and can quickly reduce the impurities attached to the surface of the hand mold, so that the surface of the hand mold is cleaner, ensure the normal and smooth production of the glove, improve the demolding effect of the glove, facilitate the quick demolding of the glove, further improve the overall quality of the glove, and reduce the temperature of the glove during the transmission process, thereby shortening the production time of the glove, greatly improving the production efficiency of the glove and being beneficial to the popularization and the use of the full-automatic glove production equipment.

Drawings

FIG. 1 is a schematic view of a full-automatic glove production apparatus according to the present invention;

FIG. 2 is an enlarged schematic view of the structure A of FIG. 1 according to the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1B according to the present invention;

FIG. 4 is an enlarged schematic view of the partial structure of B1 of FIG. 3 according to the present invention;

FIG. 5 is an enlarged schematic view of the structure of FIG. 1 at C in accordance with the present invention;

FIG. 6 is an enlarged schematic view of a partial structure at C1 of FIG. 5 according to the present invention;

FIG. 7 is an enlarged schematic view of a portion of the structure of FIG. 5 according to the present invention;

FIG. 8 is an enlarged schematic view of the structure at D of FIG. 1 according to the present invention;

FIG. 9 is an enlarged schematic view of the structure of FIG. 1 at E in accordance with the present invention;

FIG. 10 is an enlarged schematic view of the partial structure of FIG. 9 at E1 according to the present invention;

FIG. 11 is an enlarged schematic view of the structure of FIG. 1 at F in accordance with the present invention;

FIG. 12 is an enlarged schematic view of the partial structure at F1 of FIG. 11 according to the present invention

Fig. 13 is an enlarged schematic view of the structure at G of fig. 1 according to the present invention.

In the figure: 1 acid cleaning device, 2 hot water brushing device, 2001 motor, 2002 hot water tank, 2003 rotation shaft, 2004 brush disc, 2005 roller walking frame, 3 alkali cleaning device, 4 coagulant soaking device, 5 first drying device, 6 first gum dipping device, 7 first drop mechanism, 8 second drying device, 9 second gum dipping device, 10 second drop mechanism, 11 front leaching mechanism, 12 third drying device, 13 polymer soaking device, 14 fourth drying device, 15 starch soaking device, 16 rear leaching mechanism, 161 guide rail, 162 roller frame, 163 supporting plate, 164 supporting plate, 17 hemming device, 171 fixing block, 172 hemming roller, 173 blocking plate, 174 guiding column, 175 spring, 176 fastening piece, 18 first-stage transmission mechanism, 181 transmission wheel, 182 wheel seat, 183 blocking plate, 184 transmission belt, 19 second transmission mechanism, 20 demoulding device, 201 control box, 202 adsorption roller, 203 demoulding roller, 204 conveyor, 21 hand mould.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-13, a technical scheme is provided for the invention, which is a full-automatic production device of chainless gloves, comprising an acid-base cleaning device for cleaning a hand mold 21; the right side of the acid-base cleaning device is connected with a coagulant soaking device 4, and the acid-base cleaning device comprises an acid cleaning device 1, a hot water brushing device 2 and an alkali cleaning device 3 which are sequentially connected into a whole; the back of the coagulant soaking device 4 is connected with a gum dipping device, and the left side of the gum dipping device is sequentially connected with a polymer soaking device 13, a starch soaking device 15 and a hemming device 17; the right side of the hemming device 17 is connected with a two-stage conveying device for conveying the hemmed hand die 21, the right side of the two-stage conveying device is connected with a demoulding device 20, and the demoulding device 20 is fixed on the left side of the pickling device 1.

According to the glove mold, the hot water brushing device 2 is used for cleaning the glove mold 21 after acid and alkali treatment, so that impurities attached to the surface of the glove mold 21 can be quickly reduced, the surface of the glove mold 21 is cleaner, normal and smooth production of the glove is ensured, the demolding effect of the glove is improved, the glove is quickly demolded, the overall quality of the glove can be improved, and under the action of the two-section type conveying device, the glove mold 21 can be subjected to cooling treatment in the conveying process, so that the production time of the glove is shortened, and the production efficiency of the glove is greatly improved.

Example 1

Referring to fig. 1, 11 and 12, the hot water brushing device 2 includes a brushing group, a driving part and a water collecting part, wherein the driving part is in transmission connection with the brushing group and drives the brushing group to rotate so as to realize rotary brushing on the hand mold 21, the brushing group is composed of at least two groups of brush plates 2004, and a space for the hand mold 21 to be vertically arranged is reserved between every two adjacent brush plates 2004; the driving part adopts but is not limited to a motor 2001, an output shaft end part of the motor 2001 is connected with a rotating shaft 2003 through a coupling transmission, a brushing group is fixedly sleeved on a shaft body of the rotating shaft 2003, namely, a brush disc 2004 is sleeved on the rotating shaft 2003; the water collecting part is used for carrying out a hot water washing process on the hand mould 21 of the glove production line, and the water collecting part adopts, but is not limited to, a hot water tank 2002 or a hot water spray pipe; wherein, the hot water in the hot water tank 2002 or the hot water spray pipe adopts tap water or purified water with the temperature of 35-80 ℃.

In the glove production process, the hot water tank 2002 is matched for brushing the hand mold 21, the hand mold 21 is arranged in a gap between adjacent brush plates 2004, the brushing group is soaked in the hot water tank 2002, the motor 2001 operates to drive the brushing group to rotate circumferentially so as to perform rotary brushing cleaning on the hand mold 21, the hot water cleaning can accelerate the cleaning speed of the hand mold 21 and the dirt removing and removing effects, so that the content of impurities such as dust and dirt on the surface of the hand mold 21 is minimum, and the hand mold 21 is convenient for performing the subsequent glove production process; when the hot water spray pipe is adopted to brush the hand mold 21 in the glove production process, the spray heads at the end parts of the hot water spray pipe are required to be arranged between the adjacent brush plates 2004 in advance, and then the brush plates 2004 are driven to circumferentially rotate when the motor 2001 is electrified to operate, so that the hot water flushing and scouring of the hand mold 21 are performed.

The motor 2001 may be, but not limited to, a YE2 series or a YE3 series energy-saving motor, and other YVF series motors such as YVF-80M1-4 type, YVF-160L-4 type, etc. are also suitable for the embodiment of the present invention.

The acid-base cleaning device comprises a pickling device 1, a hot water scrubbing device 2 and an alkaline cleaning device 3 which are sequentially connected into a whole, wherein the pickling device 1 comprises a pickling tank, acid liquor is contained in the pickling tank, the acid liquor adopts, but is not limited to, hydrochloric acid, sulfuric acid, nitric acid, sulfurous acid, phosphoric acid, carbonic acid or sulfuric acid, and other acid solutions such as ammonium chloride, ferric chloride, ammonium sulfate and the like are also suitable for the specific embodiment of the invention; the alkaline washing device 3 comprises an alkaline washing tank, wherein alkaline liquid is contained in the alkaline washing tank, and the alkaline liquid adopts, but is not limited to, potassium hydroxide, sodium hydroxide, ammonia water, other alkaline solutions such as sodium phosphate, sodium carbonate and the like, and the alkaline solution is also suitable for the embodiment of the invention.

When the chainless glove full-automatic production equipment is used, one group or two groups of hot water brushing devices 2 can be arranged; when a group of hot water brushing devices 2 are arranged, namely, a pickling device 1, a hot water brushing device 2, an alkaline washing device 3 and a coagulant soaking device 4 are arranged, during glove production, firstly, a hand mold 21 is subjected to pickling device 1, then the hand mold 21 subjected to pickling is cleaned through the hot water brushing device 2, after cleaning, the hand mold 21 is conveyed to the alkaline washing device 3 for alkaline washing of the hand mold 21, the hand mold 21 subjected to alkaline washing is reversely conveyed to the hot water brushing device 2 for cleaning, and the hand mold 21 subjected to alkaline washing is conveyed to the coagulant soaking device 4; when two groups of hot water brushing devices 2 are arranged, namely, a pickling device 1-a hot water brushing device 2-an alkaline washing device 3-a hot water brushing device 2-a coagulant soaking device 4, the hand mold 21 is soaked by pickling-hot water washing-alkaline washing-hot water washing-coagulant in sequence, so that the subsequent glove production process is carried out.

Example two

Referring to fig. 1, 4, 5, 8, 9, 11 and 12, the dipping apparatus includes a first dipping device 6 and a second dipping device 9, a first drying device 5 is connected between the first dipping device 6 and the coagulant dipping device 4, and a first drop dropping mechanism 7 is connected to the left side of the first dipping device 6; a second drying device 8 is connected between the second gum dipping device 9 and the first drop hanging mechanism 7, the left side of the second gum dipping device 9 is connected with a second drop hanging mechanism 10, and the left side of the second drop hanging mechanism 10 is connected with a front leaching mechanism 11; a third drying device 12 is connected between the front leaching mechanism 11 and the polymer soaking device 13, and a fourth drying device 14 is connected between the polymer soaking device 13 and the starch soaking device 15; wherein the starch used in the starch soaking device 15 is, but not limited to, corn pregelatinized starch or tapioca pregelatinized starch; the polymer used in the polymer soaking device 13 is, but not limited to, an acrylic polymer emulsion or a methyl methacrylate polymer; the coagulant used in the coagulant aid 4 is, but not limited to, calcium chloride or paint slag coagulant.

It should be noted that the first dipping device 6 and the second dipping device 9 each include a dipping tank, wherein the glue contained in the dipping tank is not limited to nitrile glue and PVC glue, and other glue materials such as latex and rubber are also suitable for the embodiments of the present invention.

It should be noted that, the first drying device 5, the second drying device 8, the third drying device 12 and the fourth drying device 14 all adopt a microwave drying mode or a hot air blowing mode to implement drying treatment on the hand mold 21, the microwave drying mode adopts but is not limited to a microwave oven, the hot air blowing mode adopts but is not limited to a blower, wherein the mentioned microwave oven adopts but is not limited to an XH-6KW type or an XH-4KW type microwave oven, and other industrial microwave ovens such as a NEW-X6 type industrial microwave oven are also suitable for the embodiment of the present invention; wherein, the fan adopts but is not limited to Y6-51 type or Y5-48 type centrifugal fans, and other centrifugal fans such as 4-73 type centrifugal fans are also applicable to the embodiment of the invention; through the first drying device 5, the second drying device 8, the third drying device 12 and the fourth drying device 14, the production speed of the glove can be increased, and the production efficiency of the full-automatic glove production equipment can be improved.

It should be noted that, the first drop hanging mechanism 7 and the second drop hanging mechanism 10 both include a roller running frame 2005, and the roller running frame 2005 is used for driving the hand mold 21 to move longitudinally towards the installation position of the leaching mechanism 11 so as to implement the drop hanging process; a rear leaching mechanism 16 is connected between the starch soaking device 15 and the hemming device 17, and the rear leaching mechanism 16 and the front leaching mechanism 11 both comprise a guide rail 161, a pulley frame 162 which is connected on the guide rail 161 in a sliding way, supporting rods 163 which are arranged on two sides of the pulley frame 162, and a supporting plate 164 which is arranged on the supporting rods 163 and used for supporting the hand mould 21; the roller walking frame 2005, the guide rail 161 and the roller frame 162 are matched to form a lifting and conveying device of the hand mould 21, and the hand mould 21 is transmitted step by step to realize full-automatic glove production equipment.

It should be noted that the full-automatic glove production equipment of the present invention further includes a frame, on which the pickling device 1, the hot water brushing device 2, the alkaline washing device 3, the coagulant soaking device 4, the gum dipping device, the polymer soaking device 13, the curling device 17, the two-stage transmission device and the demolding device 20 are respectively installed, wherein the lifting and conveying device drives the hand mold 21 to longitudinally move along the installation position of the guide rail 161 in the whole process of glove production; the rail 161 employs, but is not limited to, MRW45AG0V3 type or R6-700-GA6 type rails.

Example III

Referring to fig. 1, 5, 6, 7, 8, 9 and 10, the hemming device 17 includes a hemming roller 172, and a limiting portion above the hemming roller 172 for limiting the position of the hand die 21, where the limiting portion includes a blocking plate 173 transversely disposed right above the hemming roller 172; both ends of the hemming roller 172 are provided with a fixing block 171, a bearing seat is mounted on the fixing block 171, a blocking plate 173 is mounted on the frame through a fastening piece 176, and the fastening piece 176 includes but is not limited to a screw or a bolt; guide holes are formed in two sides of the top end of the blocking plate 173, guide columns 174 are vertically arranged in the guide holes, the bottoms of the guide columns 174 are fixedly connected to the frame, springs 175 are sleeved on the outer surfaces of the guide columns 174, and the springs 175 are located between the frame and the blocking plate 173; wherein, when the glove is curled, the blocking plate 173 limits the finished glove on the hand die 21 to the curling roller 172, and the curling process is realized on the glove through the curling roller 172.

It should be noted that the two-stage transfer device includes a first stage transfer mechanism 18 connected to the hemming device 17, and a second stage transfer mechanism 19 connected to the right side of the first stage transfer mechanism 18, where the first stage transfer mechanism 18 is used to match with the hemming device 17 to perform pre-demolding treatment on the glove on the hemmed hand mold 21, and both the first stage transfer mechanism 18 and the second stage transfer mechanism 19 include a transfer wheel 181, and a transfer belt 184 wound around the transfer wheel 181; the outer side surface of the conveying wheel 181 is provided with a wheel seat 182, two sides of the conveying belt 184 are provided with a stop block 183, and the middle part of the conveying belt 184 forms a concave space through the stop block 183 so as to place the hand mould 21 in the concave space.

The demolding device 20 comprises a suction roller 202 and a demolding roller 203 for realizing demolding operation on the glove on the hand mold 21 and a conveyor 204 for conveying finished gloves after demolding; the demolding device 20 further comprises a control box 201, wherein the control box 201 is used for electrifying and controlling the operation of the conveyor 204, the adsorption roller 202 and the demolding roller 203 so as to realize the demolding process of the glove; the control box 201 is referred to as, but not limited to, an XK3310-A1 type control box, and the conveyor 204 is referred to as, but not limited to, a macadamia brand pipelined aluminum alloy belt conveyor.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples only represent preferred embodiments of the present invention, which are described in more detail and are not to be construed as limiting the scope of the invention; it should be noted that, for those skilled in the art, it is possible to make several variations and modifications without departing from the concept of the present invention, which fall within the protection scope of the present invention; in the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; may be a mechanical connection; can be directly connected or indirectly connected through an intermediate medium, and can be the communication between the two elements or the interaction relationship between the two elements; the detachable mounting mode is various, for example, the detachable mounting mode can be matched with the buckle through plugging, for example, the detachable mounting mode can be realized through a bolt connection mode, and the like.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. A full-automatic production device of chainless gloves comprises an acid-base cleaning device for cleaning a hand mould; the method is characterized in that: the right side of the acid-base cleaning device is connected with a coagulant soaking device, and the acid-base cleaning device comprises an acid washing device, a hot water brushing device and an alkaline washing device which are sequentially connected into a whole; the back of the coagulant soaking device is connected with a gum dipping device, and the left side of the gum dipping device is sequentially connected with a polymer soaking device, a starch soaking device and a hemming device; the right side of the hemming device is connected with a two-section type transmission device for transmitting a hemmed hand die, the right side of the two-section type transmission device is connected with a demoulding device, and the demoulding device is fixed on the left side of the pickling device;

the gum dipping equipment comprises a first gum dipping device and a second gum dipping device, a first drying device is connected between the first gum dipping device and the coagulant dipping device, and a first drop hanging mechanism is connected to the left side of the first gum dipping device; a second drying device is connected between the second gum dipping device and the first drop hanging mechanism, the left side of the second gum dipping device is connected with the second drop hanging mechanism, and the left side of the second drop hanging mechanism is connected with the front leaching mechanism; a third drying device is connected between the front leaching mechanism and the polymer soaking device, and a fourth drying device is connected between the polymer soaking device and the starch soaking device;

the first drying device, the second drying device, the third drying device and the fourth drying device all adopt a microwave drying mode or a cold and hot air drying mode to realize drying treatment on the hand mould, wherein the microwave drying mode adopts a microwave oven, and the cold and hot air drying mode adopts a fan;

the first drop hanging mechanism and the second drop hanging mechanism both comprise roller walking frames, and the roller walking frames are used for driving the hand mould to longitudinally move towards the installation position of the leaching mechanism so as to realize a drop hanging process;

the starch soaking device and the hemming device are connected with a rear leaching mechanism, and the rear leaching mechanism and the front leaching mechanism both comprise a guide rail, a pulley yoke which is connected on the guide rail in a sliding way, supporting rods which are arranged on two sides of the pulley yoke, and a supporting plate which is arranged on the supporting rods and used for supporting a hand mold;

the crimping device comprises a crimping roller and a limiting part which is positioned above the crimping roller and used for limiting the position of the hand die, wherein the limiting part comprises a blocking plate transversely arranged right above the crimping roller;

the two-section type transmission device comprises a first-stage transmission mechanism connected with the hemming device and a second-stage transmission mechanism connected to the right side of the first-stage transmission mechanism, the first-stage transmission mechanism is used for realizing pre-demolding treatment on gloves on a hand mold after hemming in cooperation with the hemming device, and the first-stage transmission mechanism and the second-stage transmission mechanism both comprise a transmission wheel and a transmission belt wound on the transmission wheel.

2. The full-automatic production equipment for chainless gloves according to claim 1, wherein: the hot water brushing device comprises a brushing group, a driving part and a water collecting part, wherein the driving part is in transmission connection with the brushing group and drives the brushing group to rotate so as to realize rotary brushing on the hand mould, the brushing group consists of at least two groups of brush discs, and a space for the hand mould to vertically stand is reserved between every two adjacent brush discs.

3. The full-automatic production equipment for chainless gloves according to claim 2, wherein: the water collecting part is used for carrying out a hot water washing process on the hand mould of the glove production line, and adopts a hot water tank or a hot water spray pipe.

4. The full-automatic production equipment for chainless gloves according to claim 1, wherein: the demolding device comprises an adsorption roller and a demolding roller for demolding the glove on the hand mold and a conveyor for conveying the finished glove after demolding.