CN218366026U - Gumming hand mould turning device and gumming glove production line - Google Patents

Abstract

The utility model provides a gumming hand former turning device and gumming gloves production line relates to the technical field of gloves production, and this gumming hand former turning device includes device frame actuating mechanism and first detection sensor, the device frame includes that two settings are in the sliding frame of the both sides of the first direction of gloves production line. The device frame of the gumming hand die turnover device provided by the utility model can move under the driving of the driving mechanism, the driving mechanism enables the sliding frame to move, so that the sliding frame is detected by the first detection sensor, and the driving mechanism enables the sliding frame to move again until the second detection sensor on the sliding frame detects the hand die frame; the driving mechanism stops the sliding frame from moving, and the turnover mechanism can be meshed with the hand die frame, so that the problems that the hand die frame cannot be well meshed due to inaccurate movement and inaccurate movement of the hand die frame caused by accumulation of errors of the chain are solved.

Description

Gumming hand mould turning device and gumming glove production line

Technical Field

The utility model belongs to the technical field of the technique of gloves production and specifically relates to a gumming hand former turning device and gumming gloves production line are related to.

Background

The gum dipping glove production line is divided into five working areas, namely a die sheathing area, a blank drying area, a dipping area, a main drying area and a demolding area, and comprises a frame, two chains, a plurality of groups of mutually parallel hand die frames, chain wheels and power mechanisms, wherein the hand die frames are uniformly arranged between the two chains; the die sleeve area is provided with a die sleeve chain wheel; the blank drying area is provided with a blank drying box, and a blank drying chain wheel and a primary driving motor are arranged in the blank drying box; the dipping area is provided with a plurality of groups of dipping tank mechanisms and a plurality of groups of hand formwork overturning mechanisms; the main drying area is provided with a main drying box, and a main drying chain wheel and a secondary driving motor are arranged in the main drying box; the demolding area is provided with a demolding chain wheel; a primary transition chain wheel is arranged between the die sleeve area and the blank drying area, a secondary transition chain wheel is arranged between the main drying area and the demolding area, and a tertiary transition chain wheel is arranged between the demolding area and the die sleeve area; the chain sequentially passes through the die sleeve chain wheel, the primary transition chain wheel, the blank drying chain wheel, the main drying chain wheel, the secondary transition chain wheel, the demoulding chain wheel and the tertiary transition chain wheel to form a closed and circulating loop;

the hand die frame comprises hand die fixing rods, connecting plates and hand die frame gears, wherein the hand die fixing rods are fixedly provided with a plurality of hand dies; the hand formwork overturning mechanism comprises a driving motor, a driving gear fixed on a power output shaft of the driving motor and struts arranged on two sides of a driving motor base, wherein the lower parts of two sides of the driving motor base are rotationally connected to the struts through hinge shafts; the driving gear can be meshed with the hand model frame gear.

The two chains, the plurality of groups of mutually parallel hand die frames, the chain wheels and the power mechanism are uniformly arranged between the two chains; because the chain is longer, the chain can be stretched, lead to chain length direction to change, because the die carrier drives the removal through the chain, the accumulation of the error of chain makes the die carrier gear can not be fine with tilting mechanism's gear engagement, like this when the needs upset die, when making the die carrier gumming, can appear die carrier gear and the unable meshing of tilting mechanism, lead to the unable upset of die carrier, influence the problem of gloves gumming.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a gumming hand former turning device and gumming gloves production line, the release hand former drives through the chain and removes, and the accumulation of the error of chain makes hand former gear can not be fine with tilting mechanism's gear engagement's technical problem.

In a first aspect, the utility model provides a gumming hand mold turnover device, which is applied to a gumming glove production line and comprises a device frame, a driving mechanism and a first detection sensor, wherein the device frame comprises two sliding frames which are arranged on two sides of the glove production line in a first direction;

the sliding frame comprises at least two lower supporting columns, the lower ends of the lower supporting columns are arranged on a guide rail of the glove production line in a sliding mode, and the length direction of the guide rail is the same as the first direction;

a connecting piece is arranged between the two sliding frames, the driving mechanism is connected with the connecting piece, and the driving mechanism enables the sliding frames to move along the guide rail by enabling the connecting piece to move;

the first detection sensor is arranged on one side of the sliding frame and used for detecting an initial position of the sliding frame, and the sliding frame is provided with a second detection sensor and a turnover mechanism, and the second detection sensor is used for detecting the scaffold frame; the first detection sensor and the second detection sensor are matched with the driving mechanism to control the turnover mechanism to be meshed with the hand formwork;

the first direction is the length direction of glove production line, and the second direction is the length direction of die carrier, and first direction is perpendicular with the second direction.

In an alternative embodiment, the turnover mechanism comprises a first driving motor and a driving gear connected with the first driving motor;

the die carrier is provided with a driven gear, and the driving gear of the turnover mechanism can be meshed with the driven gear under the driving of the sliding frame.

In an alternative embodiment, the first detection sensor is arranged on the guide rail.

In an alternative embodiment, two ends of the connecting piece are respectively connected with the sliding frame, and a threaded through hole is arranged on the connecting piece;

the driving mechanism comprises a second driving motor and a driving rod connected with the second driving motor, the driving rod is in threaded connection with the threaded through hole, and the second driving motor enables the connecting piece to reciprocate through adjusting the rotating direction of the driving rod.

In an optional embodiment, the device further comprises a material groove frame, wherein two ends of the material groove frame are respectively arranged on one sliding frame, and a material groove is arranged on the material groove frame;

the sliding frame is provided with a plurality of turnover mechanisms, and a hand formwork matched with the turnover mechanisms is positioned above the trough.

In an alternative embodiment, two tilting mechanisms are provided on the sliding frame, and each of the two tilting mechanisms engages with one of the hand formers.

In an alternative embodiment, the drive mechanism is fixed to the glove production line.

In an optional embodiment, the lower end of the lower support column is provided with a roller, the circumference of the roller is provided with a groove, and the groove cooperates with the guide rail to limit the sliding frame to move in the second direction.

The device frame of the gumming hand die turnover device provided by the utility model can move under the driving of the driving mechanism, the driving mechanism enables the sliding frame to move, so that the sliding frame is detected by the first detection sensor, and the driving mechanism enables the sliding frame to move again until the second detection sensor on the sliding frame detects the hand die frame; the driving mechanism enables the sliding frame to stop moving, and the turnover mechanism can be meshed with the hand die frame, so that the problems that the hand die frame cannot be well meshed due to inaccurate movement and inaccurate movement of the hand die frame caused by accumulation of errors of the chain are solved.

In a second aspect, the utility model provides a gumming glove production line, including any one of the preceding embodiment gumming hand former turning device.

The utility model also provides a gumming gloves production line, this gumming gloves production line adopt foretell gumming hand former turning device to all beneficial effects of gumming hand former turning device have.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a glue dipping hand mold turnover device provided by an embodiment of the present invention;

FIG. 2 is a schematic structural view of the glue-dipping hand mold turning device shown in FIG. 1 at another angle;

fig. 3 is a partially enlarged view a of the schematic structural diagram of the dipping hand mold turning device shown in fig. 2.

An icon: 100-trough rack; 200-a guide rail; 300-a sliding frame; 400-lower support columns; 500-a roller; 600-a first detection sensor; 700-overturning mechanism; 701-a drive gear; 702 — a first drive motor; 800-scaffold frame; 801-driven gear; 900-a second detection sensor; 110-a connector; 120-a drive mechanism; 121-a drive rod; 122-second drive motor.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Examples

Referring to fig. 1 to 3, the present invention provides a dipping hand mold turning device, which is applied to a dipping glove production line, and comprises a device frame, a driving mechanism 120 and a first detection sensor 600, wherein the device frame comprises two sliding frames 300 arranged on two sides of the glove production line in a first direction;

the sliding frame 300 comprises at least two lower supporting columns 400, the lower ends of the lower supporting columns 400 are slidably arranged on the guide rails 200 of the glove production line, and the length direction of the guide rails 200 is the same as the first direction;

a connecting member 110 is disposed between the two sliding frames 300, the driving mechanism 120 is connected to the connecting member 110, and the driving mechanism 120 moves the sliding frames 300 along the guide rail 200 by moving the connecting member 110;

the first detecting sensor 600 is disposed at one side of the sliding frame 300, the first detecting sensor 600 is used for an initial position of the sliding frame 300, the sliding frame 300 is provided with a second detecting sensor 900 and a turnover mechanism 700, and the second detecting sensor 900 is used for detecting the scaffold frame 800; the first detection sensor 600 and the second detection sensor 900 cooperate with the driving mechanism 120 to control the turnover mechanism 700 to engage with the scaffold frame 800;

the first direction is the length direction of glove production line, and the second direction is the length direction of scaffold frame 800, and first direction is perpendicular with the second direction.

The gum dipping hand mold turnover device is applied to a glove production line, wherein the glove production line comprises two chains, a plurality of groups of hand mold frames 800 which are uniformly arranged between the two chains and are parallel to each other, a chain wheel and a power mechanism; because the chain is longer, the chain can be stretched, lead to chain length direction to change, because hand die carrier 800 is through the chain drive removal, so the accumulation of the error of chain makes hand die carrier 800 gear not fine with the gear engagement of tilting mechanism 700.

The device frame of the gum dipping hand mold turnover device comprises two sliding frames 300, wherein the sliding frames 300 are arranged on the guide rails 200, so that the sliding frames 300 can be behind along the extension direction of the guide rails 200; turnover mechanism 700 is provided on sliding frame 300 such that turnover mechanism 700 can follow sliding frame 300.

The driving mechanism 120 moves the slide frame 300 to a position that can be detected by the first detection sensor 600, which is the initial position of the slide frame 300; when the scaffold frame 800 needs to be turned over, the driving mechanism 120 starts to move the sliding frame 300 until the second detection sensor 900 on the sliding frame 300 detects the scaffold frame 800, the second detection sensor 900 sends a signal to the driving mechanism 120, the driving mechanism 120 stops moving the sliding frame 300, and at this time, the turning mechanism 700 can be engaged with the scaffold frame 800 to turn over the scaffold frame 800.

Therefore, the problem that the chain is stretched to cause the length direction of the chain to change, the moving accuracy of the die carrier 800 is influenced, and the die carrier 800 cannot be accurately moved to a position where the die carrier 800 can be meshed with the turnover mechanism 700 is solved; through the cooperation of the first detection sensor 600 and the second detection sensor 900 with the driving mechanism 120, the turnover mechanism 700 on the sliding frame 300 can be accurately moved to a position where the turnover mechanism 700 can be matched with the glove mold frame 800, so that the turnover mechanism 700 can be meshed with the glove mold frame 800, the glove mold frame 800 can be turned over, and the gloves on the glove mold frame 800 can be dipped.

Referring to fig. 1, in an alternative embodiment, the turnover mechanism 700 includes a first driving motor 702 and a driving gear 701 connected to the first driving motor 702;

the die carrier 800 is provided with a driven gear 801, and the driving gear 701 of the turnover mechanism 700 can be meshed with the driven gear 801 under the driving of the sliding frame 300.

In some embodiments, the turnover mechanism 700 includes a first driving motor 702, a driving gear 701 is provided on a driving shaft of the first driving motor 702, a driven gear 801 is provided on the hand mold 800, and the driven gear 801 is generally provided at a lower end of the driving gear 701; the turnover mechanism 700 is moved above the driven gear 801 by the slide frame 300, and is engaged with the driven gear 801.

Referring to fig. 3, in an alternative embodiment, the first detection sensor 600 is disposed on the guide rail 200.

In an alternative embodiment, both ends of the connecting member 110 are respectively connected to the sliding frame 300, and a threaded through hole is provided on the connecting member 110;

the driving mechanism 120 includes a second driving motor 122 and a driving rod 121 connected to the second driving motor 122, the driving rod 121 is screwed into the threaded through hole, and the second driving motor 122 makes the connecting member 110 reciprocate by adjusting the rotation direction of the driving rod 121.

The first detection sensor 600 and the second detection sensor 900 are generally photoelectric sensors, the first detection sensor 600 may be disposed at any position where the sliding frame 300 can be detected when the sliding frame 300 is at the initial position, and the first detection sensor 600 may be disposed at one side of the guide rail 200 to determine whether the sliding frame 300 is moved to the initial position by detecting the position of the lower support column 400.

The connecting member 110 is connected to the sliding frame 300, the connecting member 110 may be made of square steel, and two ends of the connecting member 110 are respectively fixedly connected to the sliding frame 300, and are generally welded; a threaded through hole is formed in the connecting piece 110, a driving shaft of a second driving motor 122 of the driving mechanism 120 is connected with a driving rod 121, and the driving rod 121 is connected in the threaded through hole in a threaded manner; the second driving motor 122 moves the link 110 forward and backward, that is, the sliding frame 300 reciprocates along the guide rail 200, by controlling the rotational direction of the driving rod 121. Generally, a through hole is formed in the connection member 110, and a nut concentrically disposed with the through hole is provided on the connection member 110 and welded to the connection member 110 such that the driving rod 121 is engaged with the nut to reciprocate the connection member 110.

In an optional embodiment, the material container further comprises a material container frame 100, wherein two ends of the material container frame 100 are respectively arranged on one sliding frame 300, and a material container is arranged on the material container frame 100;

the sliding frame 300 is provided with a plurality of turnover mechanisms 700, and a hand formwork 800 matched with the turnover mechanisms 700 is positioned above the trough.

In an alternative embodiment, two turnover mechanisms 700 are disposed on the sliding frame 300, and the two turnover mechanisms 700 are respectively engaged with one scaffold frame 800.

In an alternative embodiment, the drive mechanism 120 is fixed to the glove production line.

In an alternative embodiment, the lower end of the lower support column 400 is provided with a roller 500, and the circumference of the roller 500 is provided with a groove, and the groove cooperates with the guide rail 200 to limit the sliding frame 300 to move in the second direction.

In some embodiments, the trough 100 is provided with a trough, and when the turnover mechanism 700 turns over the hand mold 800, the glove on the hand mold can enter the trough, so as to complete the glove dipping.

Generally, two turnover mechanisms 700 are arranged on the sliding frame 300, each turnover mechanism 700 corresponds to one glove mold carrier 800, and the two turnover mechanisms 700 rotate synchronously, so that the two glove mold carriers 800 are synchronously inserted into a trough to dip the gloves on the glove molds.

The driving mechanism 120 is generally disposed on the glove production line, and the driving mechanism 120 is fixedly connected to the glove production line, so that the second driving motor 122 of the driving mechanism 120 can be kept fixed, so that the second driving motor 122 can move the sliding frame 300 along the guide rail 200.

In order to reduce the friction force between the sliding frame 300 and the guide rail 200 and limit the movement of the sliding frame 300 in the second direction, the turnover mechanism 700 can be engaged with the scaffold frame 800; the lower end of the lower support column 400 is provided with the roller 500, the roller 500 is assembled on the guide rail 200, and the rolling friction between the roller 500 and the guide rail 200 can reduce the friction between the sliding frame 300 and the guide rail 200, so that the sliding frame 300 can be moved more easily.

A groove is formed on the roller 500, and the groove is matched with the guide rail 200, and the groove limits the movement of the sliding frame 300 in the second direction, so that the driving gear 701 of the turnover mechanism 700 can be meshed with the driven gear 801; the driving gear 701 and the driven gear 801 both have a certain thickness, and in the second direction, the driving gear 701 and the driven gear 801 have a certain dislocation, so that good meshing of the driving gear 701 and the driven gear 801 can be ensured, that is, the turnover mechanism 700 can be used for accurately turning over the hand mould frame 800.

The device frame of the gum dipping hand mold turnover device provided by the utility model can move under the driving of the driving mechanism 120, the driving mechanism 120 enables the sliding frame 300 to move, so that the sliding frame 300 is detected by the first detection sensor 600, and the driving mechanism 120 enables the sliding frame 300 to move again until the second detection sensor 900 on the sliding frame 300 detects the hand mold frame 800; the driving mechanism 120 stops the sliding frame 300 from moving, and the turnover mechanism 700 can be meshed with the hand mold frame 800 at the moment, so that the problems that the hand mold frame 800 cannot move accurately and the turnover mechanism 700 cannot be meshed with the hand mold frame 800 well due to accumulation of errors of chains are solved.

The utility model provides a gumming glove production line, including any one of the preceding embodiment gumming hand former turning device.

The utility model also provides a gumming gloves production line, this gumming gloves production line adopt foretell gumming hand former turning device to all beneficial effects of gumming hand former turning device have.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (9)

1. A gumming hand mold turnover device is applied to a gumming glove production line and is characterized by comprising a device frame, a driving mechanism (120) and a first detection sensor (600), wherein the device frame comprises two sliding frames (300) arranged on two sides of the glove production line in a first direction;

the sliding frame (300) comprises at least two lower supporting columns (400), the lower ends of the lower supporting columns (400) are arranged on a guide rail (200) of the glove production line in a sliding mode, and the length direction of the guide rail (200) is the same as the first direction;

a connecting piece (110) is arranged between the two sliding frames (300), the driving mechanism (120) is connected with the connecting piece (110), and the driving mechanism (120) enables the sliding frames (300) to move along the guide rail (200) by enabling the connecting piece (110) to move;

the first detection sensor (600) is arranged on one side of the sliding frame (300), the first detection sensor (600) is used for the initial position of the sliding frame (300), the sliding frame (300) is provided with a second detection sensor (900) and a turnover mechanism (700), and the second detection sensor (900) is used for detecting the scaffold frame (800); the first detection sensor (600) and the second detection sensor (900) are matched with the driving mechanism (120) to control the turnover mechanism (700) to be meshed with the scaffold frame (800);

the first direction is the length direction of the glove production line, the second direction is the length direction of the glove mold frame (800), and the first direction is perpendicular to the second direction.

2. The glue dipping hand die turnover device according to claim 1, wherein the turnover mechanism (700) comprises a first driving motor (702) and a driving gear (701) connected with the first driving motor (702);

the manual die carrier (800) is provided with a driven gear (801), and a driving gear (701) of the turnover mechanism (700) can be meshed with the driven gear (801) under the driving of the sliding frame (300).

3. The gumming hand mold turning device according to claim 2, characterized in that the first detection sensor (600) is arranged on the guide rail (200).

4. The glue dipping hand mold turnover device according to claim 1, wherein two ends of the connecting piece (110) are respectively connected with the sliding frame (300), and threaded through holes are arranged on the connecting piece (110);

the driving mechanism (120) comprises a second driving motor (122) and a driving rod (121) connected with the second driving motor (122), the driving rod (121) is connected in the threaded through hole in a threaded mode, and the second driving motor (122) enables the connecting piece (110) to reciprocate by adjusting the rotating direction of the driving rod (121).

5. The glue dipping hand die turnover device according to claim 2, further comprising a material groove frame (100), wherein two ends of the material groove frame (100) are respectively arranged on one sliding frame (300), and a material groove is arranged on the material groove frame (100);

the sliding frame (300) is provided with a plurality of turnover mechanisms (700), and hand die frames (800) matched with the turnover mechanisms (700) are positioned above the trough.

6. The glue dipping hand die turnover device according to claim 5, wherein two turnover mechanisms (700) are arranged on the sliding frame (300), and the two turnover mechanisms (700) are respectively engaged with one hand die frame (800).

7. The glue hand mold flipping device according to claim 1, wherein the driving mechanism (120) is fixed on a glove production line.

8. The glue dipping hand die turnover device according to any one of claims 1 to 7, wherein the lower end of the lower support column (400) is provided with a roller (500), the circumference of the roller (500) is provided with a groove, and the groove cooperates with the guide rail (200) to limit the sliding frame (300) from moving in the second direction.

9. A dipping glove production line, characterized in that it comprises a dipping hand mold turning device according to any one of claims 1 to 8.

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