CN220576613U - Impregnated glove embossing machine - Google Patents

Abstract

The utility model relates to the technical field of gum dipping glove embossing, in particular to a gum dipping glove embossing machine which is convenient for double production and embossing of gum dipping gloves, is convenient for unloading and transporting the gum dipping gloves, saves labor and improves efficiency; the embossing mechanism comprises a first mounting frame, a supporting leg, a cylinder, a pressing connecting plate, a spring, a fixing nut, a connecting threaded rod, a pressing protecting plate, a heating plate and an embossing plate, wherein the first mounting frame is arranged on the supporting leg; still including wearing mechanism, supplementary embossing mechanism, unloading mechanism and transport mechanism, wearing mechanism installs supplementary embossing mechanism on first mounting bracket.

Description

Impregnated glove embossing machine

Technical Field

The utility model relates to the technical field of embossing of dipped gloves, in particular to an embossing machine for dipped gloves.

Background

The dipped glove is also called latex glove, is different from the common glove, is processed by latex, can be used as a necessary hand protection article in families, industries, medical treatment, cosmetology and other industries, adopts natural latex and is matched with other fine auxiliary agents to process the dipped glove, and the product is subjected to special surface treatment, is comfortable to wear and has wide application in industrial and agricultural production, medical treatment and daily life.

For example, in a prior art represented by CN201920524084.7, the main structure of the embossing mechanism includes an embossing mechanism and an embossing hand mold, where the embossing mechanism includes a first mounting frame, a supporting leg, a cylinder, a pressing connection plate, a spring, a fixing nut, a connecting threaded rod, a pressing protection plate, a heating plate and an embossing plate, the first mounting frame is mounted on the supporting leg, the cylinder is mounted on the supporting leg, the pressing connection plate is mounted at the bottom end of the cylinder, the spring is mounted on the pressing connection plate through the fixing nut, the connecting threaded rod is mounted on the spring, the pressing protection plate is mounted at the bottom end of the spring, the heating plate is mounted on the pressing protection plate, and the embossing plate is mounted on the heating plate; when the impregnated glove is to be embossed, the glove sleeve is firstly worn on the embossing hand mould, and then the starting cylinder is controlled, so that the embossing plate starts to perform the embossing work of the impregnated glove on the embossing hand mould in the descending direction.

In the production process, the embossing production of the impregnated glove is mainly double production, the prior art is inconvenient to emboss the double impregnated glove, and the glove after the embossing is finished is inconvenient to unload and transport.

Disclosure of Invention

In order to solve the technical problems, the utility model provides the embossing machine for the impregnated glove, which is convenient for double production and embossing of the impregnated glove, is convenient for unloading and transporting the impregnated glove, saves labor and improves efficiency.

The utility model relates to a gum dipping glove embossing machine, which comprises an embossing mechanism and an embossing hand die, wherein the embossing mechanism comprises a first mounting frame, supporting legs, an air cylinder, a lower pressing connecting plate, a spring, a fixing nut, a connecting threaded rod, a lower pressing protecting plate, a heating plate and an embossing plate; the automatic feeding device further comprises a mounting mechanism, an auxiliary embossing mechanism, a blanking mechanism and a transport mechanism, wherein the mounting mechanism is arranged on the first mounting frame, the auxiliary embossing mechanism is arranged on the first mounting frame, the blanking mechanism is arranged on the auxiliary embossing mechanism, and the transport mechanism is positioned at the bottom of the blanking mechanism; through setting up wearing mechanism and supplementary embossing mechanism, conveniently make embossing mechanism carry out the impressed watermark to the gum dipping glove of pair, conveniently pluck the gloves after the impressed watermark through setting up unloading mechanism, conveniently transport finished glove through setting up transport mechanism.

Preferably, the mounting mechanism comprises a sliding rail, a second mounting frame, embossing hand molds, a third mounting plate, a first motor and gears, wherein the sliding rail is mounted on the first mounting frame, the sliding rail is slidably mounted on the sliding rail, gear teeth are arranged on the sliding rail, a plurality of second mounting frames are mounted on the sliding rail, a pair of embossing hand molds are mounted on each second mounting frame, the third mounting plate is mounted on the first mounting frame, the third mounting plate is positioned at the bottom of the sliding rail, the first motor is mounted on the third mounting plate, the output end of the first motor is provided with the gears, and the gears are meshed with the gear teeth on the sliding rail; firstly, the double gum dipping gloves are sleeved on each pair of embossing hand dies, the first motor is turned on to drive the gears to rotate, and the pulleys are driven to slide on the sliding rails due to the meshing relationship of the gears and the gear teeth, so that the gum dipping gloves are moved, and the efficiency is improved.

Preferably, the auxiliary embossing mechanism comprises a fourth mounting plate and a pneumatic support plate, the fourth mounting plate is mounted on the first mounting frame, the pneumatic support plate is mounted on the fourth mounting plate, and the pneumatic support plate is aligned with the gap between each pair of embossing hand dies; when the gum dipping glove on the embossing hand mould is to be embossed, the fourth mounting plate is pushed into the gap between each pair of the embossing hand moulds by opening the pneumatic support plate, an auxiliary fixing effect is achieved on the upper embossing and the lower embossing, and then the gum dipping glove on the embossing hand mould is embossed through the embossing mechanism.

Preferably, the blanking mechanism comprises a fifth mounting plate, a mounting box, a second motor, a turntable, a mounting shaft, a sliding plate, an electronic clamping jaw and a connecting rod, wherein the fifth mounting plate is mounted on the fourth mounting plate, the mounting box is mounted on the fifth mounting plate and is positioned on the side surface of the pneumatic supporting plate, the second motor is mounted on the side wall of the mounting box, the turntable is mounted at the output end of the second motor, the mounting shaft is mounted on the turntable, the mounting shaft is not concentric with the turntable, the sliding plate is slidably mounted in the mounting box, the electronic clamping jaw is mounted on the sliding plate, one end of the connecting rod is rotatably mounted on the mounting shaft, and the other end of the connecting rod is rotatably mounted on the sliding plate; when the embossed gloves reach the conveying mechanism, the second motor is opened to drive the turntable to rotate, the installation shaft and the turntable are not concentric, so that the sliding plate is driven to slide in the installation box, after the electronic clamping jaws are positioned on the paired embossing hand molds, the electronic clamping jaws are opened to grasp the gloves, then the turntable is continuously rotated to drive the sliding plate to retract, and after the electronic clamping jaws pick the gloves off the embossing hand molds, the electronic clamping jaws are controlled to open to put the double gloves into the conveying mechanism.

Preferably, the embossing mechanism comprises a first mounting frame, a supporting leg, a cylinder, a pressing connecting plate, a spring, a fixing nut, a connecting threaded rod, pressing protecting plates, heating plates and embossing plates, wherein the first mounting frame is arranged on the supporting leg, the cylinder is arranged on the supporting leg, the pressing connecting plate is arranged at the bottom end of the cylinder, the spring is arranged on the pressing connecting plate through the fixing nut, the connecting threaded rod is arranged on the spring, the pressing protecting plates are arranged at the bottom end of the spring, the heating plates are arranged on the pressing protecting plates, the embossing plates are arranged on the heating plates, the number of the embossing mechanisms is two, and the embossing mechanisms are respectively arranged at the top end and the bottom end of the first mounting frame; after the fourth mounting plate stretches into the gap between each pair of embossing hand molds, the cylinder is opened, so that the embossing plate starts to perform the rubber impregnated glove embossing work on the lower row of embossing hand molds.

Preferably, the transport mechanism comprises a transport vehicle, universal wheels and a handle, the transport vehicle is positioned at the bottom of the electronic clamping jaw, the universal wheels are arranged at the bottom of the transport vehicle, and the handle is arranged on the transport vehicle; after the electronic clamping jaw puts the double glove into the transport vehicle, the transport vehicle is pushed by holding the handle, and the dipped glove is moved and transported.

Compared with the prior art, the utility model has the beneficial effects that: through setting up wearing mechanism and supplementary embossing mechanism, make things convenient for supplementary embossing mechanism to emboss to the gum dipping gloves of pair, conveniently pluck the gloves after the embossing through setting up unloading mechanism, conveniently transport finished gloves through setting up transport mechanism.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a left side view of the present utility model;

FIG. 3 is a schematic view of a partially enlarged structure of FIG. 2A according to the present utility model;

FIG. 4 is a cross-sectional view of the blanking mechanism of the present utility model;

the reference numerals in the drawings: 01. an embossing mechanism; 11. a first mounting frame; 12. a support leg; 13. a cylinder; 14. pressing down the connecting plate; 15. a spring; 16. a fixing nut; 17. connecting a threaded rod; 18. pressing down the protective plate; 19. a heating plate; 20. a embossing plate; 03. a wearing mechanism; 31. a slide rail; 32. gear teeth; 33. a pulley; 34. a second mounting frame; 35. embossing the hand mould; 36. a third mounting plate; 37. a first motor; 38. a gear; 04. an auxiliary embossing mechanism; 41. a fourth mounting plate; 42. a pneumatic support plate; 05. a blanking mechanism; 51. a fifth mounting plate; 52. a mounting box; 53. a second motor; 54. a turntable; 55. a mounting shaft; 56. a sliding plate; 57. an electronic clamping jaw; 58. a connecting rod; 06. a transport mechanism; 61. a transport vehicle; 62. a universal wheel; 63. a handle.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. This utility model may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

The utility model relates to a gum dipping glove embossing machine, which comprises an embossing mechanism 01 and an embossing hand die 35, wherein the embossing mechanism 01 comprises a first mounting frame 11, a supporting leg 12, an air cylinder 13, a lower pressing connection plate 14, a spring 15, a fixing nut 16, a connecting threaded rod 17, a lower pressing protection plate 18, a heating plate 19 and an embossing plate 20, the first mounting frame 11 is arranged on the supporting leg 12, the air cylinder 13 is arranged on the supporting leg 12, the lower pressing connection plate 14 is arranged at the bottom end of the air cylinder 13, the spring 15 is arranged on the lower pressing connection plate 14 through the fixing nut 16, the connecting threaded rod 17 is arranged on the spring 15, the lower pressing protection plate 18 is arranged at the bottom end of the spring 15, the heating plate 19 is arranged on the lower pressing protection plate 18, and the embossing plate 20 is arranged on the heating plate 19; the automatic feeding device further comprises a mounting mechanism 03, an auxiliary embossing mechanism 04, a blanking mechanism 05 and a transport mechanism 06, wherein the mounting mechanism 03 is arranged on the first mounting frame 11, the auxiliary embossing mechanism 04 is arranged on the first mounting frame 11, the blanking mechanism 05 is arranged on the auxiliary embossing mechanism 04, and the transport mechanism 06 is positioned at the bottom of the blanking mechanism 05; the mounting mechanism 03 comprises a slide rail 31, a pulley 33, second mounting frames 34, an embossing hand mold 35, a third mounting plate 36, a first motor 37 and a gear 38, wherein the slide rail 31 is mounted on the first mounting frame 11, the pulley 33 is slidably mounted on the slide rail 31, the pulley 33 is provided with gear teeth 32, a plurality of second mounting frames 34 are mounted on the pulley 33, a pair of embossing hand molds 35 are mounted on each second mounting frame 34, the third mounting plate 36 is mounted on the first mounting frame 11, the third mounting plate 36 is positioned at the bottom of the pulley 33, the first motor 37 is mounted on the third mounting plate 36, the output end of the first motor 37 is provided with the gear 38, and the gear 38 is meshed with the gear teeth 32 on the pulley 33; the auxiliary embossing mechanism 04 includes a fourth mounting plate 41 and a pneumatic support plate 42, the fourth mounting plate 41 being mounted on the first mounting frame 11, the pneumatic support plate 42 being mounted on the fourth mounting plate 41, and the pneumatic support plate 42 being aligned with a gap between each pair of embossing hand molds 35; the blanking mechanism 05 comprises a fifth mounting plate 51, a mounting box 52, a second motor 53, a turntable 54, a mounting shaft 55, a sliding plate 56, an electronic clamping jaw 57 and a connecting rod 58, wherein the fifth mounting plate 51 is mounted on the fourth mounting plate 41, the mounting box 52 is mounted on the fifth mounting plate 51 and is positioned on the side surface of the pneumatic supporting plate 42, the second motor 53 is mounted on the side wall of the mounting box 52, the turntable 54 is mounted at the output end of the second motor 53, the mounting shaft 55 is mounted on the turntable 54, the mounting shaft 55 is not concentric with the turntable 54, the sliding plate 56 is slidably mounted in the mounting box 52, the electronic clamping jaw 57 is mounted on the sliding plate 56, one end of the connecting rod 58 is rotatably mounted on the mounting shaft 55, and the other end of the connecting rod 58 is rotatably mounted on the sliding plate 56; the embossing mechanism 01 comprises a first mounting frame 11, a supporting leg 12, a cylinder 13, a lower pressing connecting plate 14, a spring 15, a fixing nut 16, a connecting threaded rod 17, a lower pressing protecting plate 18, a heating plate 19 and an embossing plate 20, wherein the first mounting frame 11 is mounted on the supporting leg 12, the cylinder 13 is mounted on the supporting leg 12, the lower pressing connecting plate 14 is mounted at the bottom end of the cylinder 13, the spring 15 is mounted on the lower pressing connecting plate 14 through the fixing nut 16, the connecting threaded rod 17 is mounted on the spring 15, the lower pressing protecting plate 18 is mounted at the bottom end of the spring 15, the heating plate 19 is mounted on the lower pressing protecting plate 18, the embossing plate 20 is mounted on the heating plate 19, and the number of the embossing mechanisms 01 is two and is respectively mounted at the top end and the bottom end of the first mounting frame 11; the transport mechanism 06 includes a transport carriage 61, a universal wheel 62 and a handle 63, the transport carriage 61 is located at the bottom of the electronic clamping jaw 57, the universal wheel 62 is mounted at the bottom of the transport carriage 61, and the handle 63 is mounted on the transport carriage 61.

As shown in fig. 1 to 4, in the present utility model, when the present utility model is operated, the pair of glove embossing machines are first sleeved on each pair of embossing hand molds 35, the first motor 37 is opened to drive the gear 38 to rotate, the pulley 33 is driven to slide on the slide rail 31 due to the meshing relationship between the gear 38 and the gear teeth 32, so as to achieve the movement of the glove, the efficiency is improved, when the glove on the pair of embossing hand molds 35 is to be embossed, the fourth mounting plate 41 is pushed into the gap between each pair of embossing hand molds 35 by opening the pneumatic support plate 42, the auxiliary fixing function is achieved for the up-down embossing, the cylinder 13 is opened, the embossing plate 20 starts to move down to the glove embossing operation on the pair of embossing hand molds 35, when the embossed glove reaches the transport mechanism 06, the turntable 54 is driven to rotate by opening the second motor 53, the mounting shaft 55 is not concentric with the turntable 54, so that the sliding plate 56 is driven to slide in the mounting box 52, when the pair of glove is to be embossed, the electronic clamping jaws 57 are opened to grasp the glove, then the turntable 57 is driven to rotate, the turntable 57 is driven to move the pair of glove clamping jaws, and the electronic clamping jaws 57 are continuously moved to the pair of glove clamping jaws 57 through the control the stretching mechanism, and the electronic clamping jaws 57 are continuously pulled into the transport mechanism, and the pair of glove clamping jaws are pulled by the electronic clamping jaws 57, and the electronic clamping jaws are continuously pulled by the stretching the electronic clamping jaws, and the electronic clamping jaws are continuously, and the electronic clamping jaws are pulled by the electronic clamping jaws and the electronic glove.

The cylinder 13, the first motor 37, the pneumatic support plate 42, the second motor 53 and the electronic jaw 57 of the present utility model are commercially available and can be installed and operated by those skilled in the art only according to the accompanying instructions without the need for creative efforts of those skilled in the art.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (1)

1. A gum dipping glove embossing machine, which comprises an embossing mechanism (01) and an embossing hand mould (35); the automatic feeding device is characterized by further comprising a mounting mechanism (03), an auxiliary embossing mechanism (04), a blanking mechanism (05) and a conveying mechanism (06), wherein the mounting mechanism (03) is arranged on the first mounting frame (11), the auxiliary embossing mechanism (04) is arranged on the first mounting frame (11), the blanking mechanism (05) is arranged on the auxiliary embossing mechanism (04), and the conveying mechanism (06) is positioned at the bottom of the blanking mechanism (05);

the double impregnated gloves are embossed by the embossing mechanism (01) through the wearing mechanism (03) and the auxiliary embossing mechanism (04), the embossed gloves are picked off through the blanking mechanism (05), and finished gloves are transported through the transporting mechanism (06);

the mounting mechanism (03) comprises a sliding rail (31), a pulley (33), a second mounting frame (34), embossing hand molds (35), a third mounting plate (36), a first motor (37) and gears (38), wherein the sliding rail (31) is mounted on the first mounting frame (11), the pulley (33) is slidably mounted on the sliding rail (31), gear teeth (32) are arranged on the pulley (33), a plurality of second mounting frames (34) are mounted on the pulley (33), a pair of embossing hand molds (35) are mounted on each second mounting frame (34), the third mounting plate (36) is mounted on the first mounting frame (11), the third mounting plate (36) is located at the bottom of the pulley (33), the first motor (37) is mounted on the third mounting plate (36), the gears (38) are mounted at the output ends of the first motor (37), and the gears (38) are meshed with the gear teeth (32) on the pulley (33).

The auxiliary embossing mechanism (04) comprises a fourth mounting plate (41) and a pneumatic support plate (42), wherein the fourth mounting plate (41) is mounted on the first mounting frame (11), the pneumatic support plate (42) is mounted on the fourth mounting plate (41), and the pneumatic support plate (42) is aligned with a gap between each pair of embossing hand dies (35);

the blanking mechanism (05) comprises a fifth mounting plate (51), a mounting box (52), a second motor (53), a rotary table (54), a mounting shaft (55), a sliding plate (56), an electronic clamping jaw (57) and a connecting rod (58), wherein the fifth mounting plate (51) is mounted on the fourth mounting plate (41), the mounting box (52) is mounted on the fifth mounting plate (51), the mounting box (52) is positioned on the side face of the pneumatic supporting plate (42), the second motor (53) is mounted on the side wall of the mounting box (52), the rotary table (54) is mounted at the output end of the second motor (53), the mounting shaft (55) is mounted on the rotary table (54), the mounting shaft (55) is not concentric with the rotary table (54), the sliding plate (56) is slidably mounted in the mounting box (52), one end of the connecting rod (58) is rotatably mounted on the mounting shaft (55), and the other end of the connecting rod (58) is rotatably mounted on the sliding plate (56).

The embossing mechanism (01) comprises a first mounting frame (11), a supporting leg (12), an air cylinder (13), a lower pressing connecting plate (14), a spring (15), a fixing nut (16), a connecting threaded rod (17), a lower pressing protecting plate (18), a heating plate (19) and an embossing plate (20), wherein the first mounting frame (11) is mounted on the supporting leg (12), the air cylinder (13) is mounted on the supporting leg (12), the lower pressing connecting plate (14) is mounted at the bottom end of the air cylinder (13), the spring (15) is mounted on the lower pressing connecting plate (14) through the fixing nut (16), the connecting threaded rod (17) is mounted on the spring (15), the lower pressing protecting plate (18) is mounted at the bottom end of the spring (15), the heating plate (19) is mounted on the heating plate (19), and the number of the embossing mechanism (01) is two and is mounted at the top end and the bottom end of the first mounting frame (11) respectively;

the transport mechanism (06) comprises a transport vehicle (61), universal wheels (62) and a handle (63), wherein the transport vehicle (61) is located at the bottom of the electronic clamping jaw (57), the universal wheels (62) are installed at the bottom of the transport vehicle (61), and the handle (63) is installed on the transport vehicle (61).