CN210501433U

CN210501433U - Harbour precious assembly quality

Info

Publication number: CN210501433U
Application number: CN201921336530.8U
Authority: CN
Inventors: 陈文彪; 朱益真
Original assignee: Fujian Putian Shuangchi R & D Co Ltd
Current assignee: Fujian Putian Shuangchi R & D Co Ltd
Priority date: 2019-08-18
Filing date: 2019-08-18
Publication date: 2020-05-12
Anticipated expiration: 2029-08-18

Abstract

A port assembly device is characterized in that a bridging agent can be poured into a bridging agent bin with a heating pipe, and TPU powder and PC powder can be poured into a feeding hopper; thereby take agitator motor's churn can carry out intensive mixing to TPU powder, PC powder, the fused bridging agent and form the mixture, and the feeding pump passes through the conveying pipeline and carries the mixture to the material spraying mouth, and the horizontal migration of the material spraying mouth can be controlled to the flexible of the piston rod of advancing and retreating hydro-cylinder, and the material spraying mouth that is in the horizontal migration state can carry out the spraying mixture to the shoes ankle region in the die frame, and the mixture after the spraying is accomplished solidifies promptly for the treasure in port. The utility model has the characteristics of novel structure, machining efficiency height, environmental protection, practicality are stronger.

Description

Harbour precious assembly quality

Technical Field

The utility model relates to a treasure assembly quality at port.

Background

The harbor is mainly applied to the strengthening and supporting of the ankle part of the sports shoes, at present, the harbor applied to the sports shoes is prefabricated, cut and trimmed, and then is installed and fixed in the ankle part of the sports shoes by a worker through a special tool, and the problems of complex process flow, low installation efficiency and no environmental protection can exist in the traditional harbor processing and manual installation of the harbor.

Disclosure of Invention

In order to solve the problem, the utility model provides a port treasure and assembly quality thereof, it can utilize the recovery raw materials to accomplish low-cost environmental protection again, reduces staff's operation flow, saves the manual work, economizes the flow, increases the productivity, has left out the brush and has glued, spout glue, edging, soak port treasure water flow, and it has novel structure, machining efficiency height, environmental protection, the stronger characteristics of practicality.

In order to achieve the above object, the present invention provides the following specific technical measures:

a port treasure assembly device, which consists of a shoe clamping and supporting mechanism and a material spraying and printing mechanism, is characterized in that,

the shoe clamping and supporting mechanism and the material spraying and printing mechanism are arranged oppositely, the shoe clamping and supporting mechanism is used for supporting a vertically-arranged shoe and fastening the shoe by utilizing a U-shaped clamping rod, the shoe clamping and supporting mechanism aims an inlet of the vertically-arranged shoe at a mould pressing plate of the material spraying and printing mechanism, the mould pressing plate can downwards press and press an ankle part inside the shoe, a mould frame of the mould pressing plate is used as a material spraying and printing area, a material spraying nozzle in the material spraying and printing mechanism is aimed at to spray the material on the lower material spraying and printing area, a port is formed after the material is solidified, and the shape of the port is the same as that of the mould frame of the mould pressing plate;

the shoe clamping and supporting mechanism comprises a vertical base, a positioning hook plate, a bearing, a transverse rotating plate, two vertical clamping plates, a U-shaped shoe standing plate and a U-shaped clamping rod, wherein the bottom surface of the outer diameter of the bearing is fixedly fastened on the top surface of the vertical base through welding, the bottom plate end of a first positioning hook plate is movably connected to the upper end of the left side surface of the vertical base through a first pin rod and a first pin stringing plate, the bottom plate end of a second positioning hook plate is movably connected to the upper end of the right side surface of the vertical base through a second pin rod and a second pin stringing plate, and the first positioning hook plate and the second positioning hook plate are arranged in bilateral;

the top surface of the inner diameter of the bearing is fixedly arranged in the middle of the bottom surface of the transverse rotating plate through welding, the transverse rotating plate flexibly rotates through the bearing, and the top end of the first positioning hook plate and the top end of the second positioning hook plate can be tightly buckled on the edge of the top surface of the transverse rotating plate, so that the positioning purpose of the transverse rotating plate is realized;

the top of the transverse rotating plate is provided with a left vertical clamping plate and a right vertical clamping plate which are parallel through screws, a U-shaped shoe standing plate is clamped between the left vertical clamping plate and the right vertical clamping plate which are parallel, the shoes which are vertically placed in the forward direction can be downwards placed into the U-shaped shoe standing plate, the left side surface of the vertical clamping plate on the left side and the right side surface of the vertical clamping plate on the right side can be oppositely clamped by two rod ends of the U-shaped clamping rod respectively, and therefore the purpose that the shoes which are vertically placed in the U-shaped shoe standing plate in the forward direction can be kept immovabl;

the spraying printing mechanism comprises a vertical frame, a mould pressing plate, a spraying nozzle, a conveying pipe, an advancing and retreating oil cylinder, a feeding pump, a mixing drum with a mixing motor, a feeding hopper and a bridging agent bin with a heating pipe, wherein the vertical frame is a vertical frame formed by welding steel plates, the waist of the vertical frame is transversely fastened with the mould pressing plate through welding, the mould pressing plate is punched with a mould frame in a shape of a treasure, the waist of the vertical frame is welded with a transverse plate I, the transverse plate I is arranged right above the mould pressing plate in parallel, the top surface of the transverse plate I is transversely fastened with the advancing and retreating oil cylinder through a bolt, a piston rod of the advancing and retreating oil cylinder faces to the left, the head end of a piston rod of the advancing and retreating oil cylinder is fastened with the spraying nozzle through a screw, a conical discharge port protruding downwards is integrally formed at the bottom of;

a transverse plate II is welded on the vertical frame, the transverse plate II is arranged right above the transverse plate I in parallel, the feeding pump is fastened on the top surface of the transverse plate II through bolts, and a discharge port of the feeding pump is communicated with a feed inlet at the top of the material spraying nozzle through a feed delivery pipe;

a transverse plate III is welded on the vertical frame, the transverse plate III is parallelly arranged right above the transverse plate II, a stirring cylinder with a stirring motor is fastened on the top surface of the transverse plate III through screws, a push-pull material cutting plate is arranged at a bottom discharge port of the stirring cylinder with the stirring motor, and the bottom discharge port of the stirring cylinder with the stirring motor is communicated with a feed port of a feed pump;

a transverse top plate is welded above the transverse plate III through a vertical steel plate, a left vertical material hole and a right vertical material hole are cut on the transverse top plate, the left vertical material hole and the right vertical material hole are communicated with an inlet at the top of a mixing drum with a mixing motor, a feed hopper is fastened on the right side of the top surface of the transverse top plate through welding, the bottom of the feed hopper is communicated with the right vertical material hole, a bridging agent bin with a heating pipe is fastened on the left side of the top surface of the transverse top plate through screws, and molten material in the bridging agent bin with the heating pipe can fall into the inlet at the top of the mixing drum with the mixing,

the bridging agent can be poured into a bridging agent bin with a heating pipe, and the melting point of the bridging agent is 60-85 ℃;

TPU powder and PC powder can be poured into a feed hopper;

thereby take agitator motor's churn can carry out intensive mixing to TPU powder, PC powder, the fused bridging agent and form the mixture, and the feeding pump passes through the conveying pipeline and carries the mixture to the material spraying mouth, and the horizontal migration of the material spraying mouth can be controlled to the flexible of the piston rod of advancing and retreating hydro-cylinder, and the material spraying mouth that is in the horizontal migration state can carry out the spraying mixture to the shoes ankle region in the die frame, and the mixture after the spraying is accomplished solidifies promptly for the treasure in port.

The beneficial effects of the utility model reside in that, it has novel structure, machining efficiency height, environmental protection, practicality stronger characteristics.

The present invention will be further explained with reference to the drawings and examples.

Drawings

FIG. 1 is a reference view of the shoe of the present invention in a use state in which the shoe is vertically placed in the shoe clamping and supporting mechanism;

FIG. 2 is a schematic view of a partial structure of the shoe clamping and supporting mechanism of the present invention;

FIG. 3 is a side perspective view of a partial assembly of the middle jet printing mechanism of the present invention;

fig. 4 is a front view of the U-shaped clamping bar of the present invention.

In the figure: a-shoes, B1-vertical bases, B2-bearings, B3-positioning hook plate II, B4-transverse rotating plates, B5-vertical clamping plates, B6-U-shaped shoe standing plates, B7-U-shaped clamping rods, C1-vertical frames, C11-transverse plate I, C12-transverse plate II, C13-transverse plate III, C14-transverse top plates, C2-mould pressing plates, C3-material spraying nozzles, C4-feeding and retreating oil cylinders, C5-material conveying pipes, C6-material conveying pumps, C7-stirring cylinders with stirring motors, C8-feed hoppers and C9-bridging agent bins with heating pipes.

Detailed Description

A port treasure assembling device is shown in figure 1, figure 2, figure 3 and figure 4, which is composed of a shoe clamping and supporting mechanism and a material spraying and printing mechanism, and is characterized in that,

the shoe clamping and supporting mechanism and the material spraying and printing mechanism are arranged oppositely, the shoe clamping and supporting mechanism is used for supporting a vertically-arranged shoe and fastening the shoe by utilizing a U-shaped clamping rod B7, the shoe clamping and supporting mechanism aims an inlet of the vertically-arranged shoe at a molded plate C2 of the material spraying and printing mechanism, the molded plate C2 can downwards press the ankle part inside the shoe A, a mold frame of the molded plate C2 is used as a material spraying and printing area, a material spraying nozzle in the material spraying and printing mechanism is aimed at to spray the material in the lower material spraying and printing area, a Hongkao is formed after the material is solidified, and the shape of the Hongkao is the same as that of the mold frame of the molded plate C2;

the shoe clamping and supporting mechanism comprises a vertical base B1, a positioning hook plate, a bearing B2, a transverse rotating plate B4, two vertical clamping plates B5, a U-shaped shoe standing plate B6 and a U-shaped clamping rod B7, wherein the bottom surface of the outer diameter of the bearing B2 is fixedly fastened to the top surface of the vertical base B1 through welding, the bottom plate end of the first positioning hook plate is movably connected to the upper end of the left side surface of the vertical base B1 through a first pin rod and a first pin stringing plate, the bottom plate end of the second positioning hook plate B3 is movably connected to the upper end of the right side surface of the vertical base B1 through a second pin rod and a second pin stringing plate, and the first positioning hook plate and the second positioning hook plate B3 are arranged in a;

the top surface of the inner diameter of the bearing B2 is fixedly connected to the middle part of the bottom surface of the transverse rotating plate B4 through welding, the transverse rotating plate B4 flexibly rotates through the bearing B2, and the top end of the first positioning hook plate and the top end of the second positioning hook plate B3 can be tightly buckled on the edge of the top surface of the transverse rotating plate B4, so that the positioning purpose of the transverse rotating plate B4 is realized;

the top of the transverse rotating plate B4 is provided with a left vertical splint B5 and a right vertical splint B6 which are parallel through screws, a U-shaped shoe standing plate B6 is clamped between the left vertical splint B5 and the right vertical splint B3652, a shoe which is vertically placed in the forward direction can be downwards placed into the U-shaped shoe standing plate B6, the left side surface of the vertical splint B5 positioned on the left side and the right side surface of the vertical splint B5 positioned on the right side can be oppositely clamped by two rod ends of the U-shaped clamping rod B7, and therefore the purpose that the shoe which is vertically placed in the U-shaped shoe standing plate B6 in the forward direction is kept immovable is achieved;

wherein, the material spraying and printing mechanism comprises a vertical frame C1, a mould pressing plate C2, a material spraying nozzle C3, a material conveying pipe C5, an advancing and retreating oil cylinder C4, a material feeding pump C6, a mixing drum C7 with a mixing motor, a feed hopper C8 and a bridging agent bin C9 with a heating pipe, the vertical frame C1 adopts a vertical frame formed by welding steel plates, the waist part of the vertical frame C1 is transversely fastened with a mould pressing plate C2 by welding, the die pressing plate C2 is punched with a die frame in the shape of a Hongbao, the waist of the vertical frame C1 is welded with a transverse plate C11, the first transverse plate C11 is parallelly installed right above a die pressing plate C2, the top surface of the first transverse plate C11 is transversely fastened with a forward and backward oil cylinder C4 through a bolt, a piston rod of the forward and backward oil cylinder C4 faces left, a material spraying nozzle C3 is fastened at the head end of a piston rod of the forward and backward oil cylinder C4 through a screw, a conical discharge hole protruding downwards is integrally formed at the bottom of the material spraying nozzle C3, and the material spraying nozzle C3 is located right above a die frame;

a transverse plate II C12 is welded on the vertical frame C1, a transverse plate II C12 is parallelly arranged right above the transverse plate I C11, a feeding pump C6 is fastened on the top surface of the transverse plate II C12 through bolts, and a discharge port of a feeding pump C6 is communicated with a feed port at the top of the material spraying nozzle C3 through a feed delivery pipe C5;

a transverse plate III C13 is welded on the vertical frame C1, the transverse plate III C13 is parallelly installed right above the transverse plate II C12, a stirring cylinder C7 with a stirring motor is fastened on the top surface of the transverse plate III C13 through screws, a push-pull material cutting plate is installed at a bottom discharge port of a stirring cylinder C7 with the stirring motor, and a bottom discharge port of a stirring cylinder C7 with the stirring motor is communicated with a feed port of a feed pump C6;

a transverse top plate C14 is welded above the transverse plate III C13 through a vertical steel plate, a left vertical material hole and a right vertical material hole are cut on the transverse top plate C14, the left vertical material hole and the right vertical material hole are communicated with a top inlet of a stirring cylinder C7 with a stirring motor, a feed hopper C8 is fastened on the right side of the top surface of the transverse top plate C14 through welding, the bottom of a feed hopper C8 is communicated with the vertical material hole on the right side, a bridging agent bin C9 with a heating pipe is fastened on the left side of the top surface of the transverse top plate C14 through screws, molten materials of a bridging agent bin C9 with the heating pipe can fall into the top inlet of the stirring cylinder C7 with the stirring motor,

the bridging agent can be poured into a bridging agent bin C9 with a heating pipe, and the melting point of the bridging agent is 60-85 ℃;

the TPU powder and the PC powder can be poured into a feed hopper C8;

the mixing drum C7 with the stirring motor can fully stir TPU powder, PC powder and molten bridging agent to form a mixture, the feeding pump C6 conveys the mixture to the material spraying nozzle C3 through a conveying pipeline C5, the telescopic piston rod of the feeding and withdrawing oil cylinder C4 can control the horizontal movement of the material spraying nozzle C3, the material spraying nozzle C3 in the horizontal movement state can spray the mixture on the ankle area of the shoes in the mold frame, and the mixture after the spraying is finished is solidified, namely a port treasure.

Claims

1. A port treasure assembly device, which consists of a shoe clamping and supporting mechanism and a material spraying and printing mechanism, is characterized in that,

the shoe clamping and supporting mechanism and the material spraying and printing mechanism are arranged oppositely, the shoe clamping and supporting mechanism is used for supporting a vertically-arranged shoe and fastening the shoe by utilizing a U-shaped clamping rod (B7), the shoe clamping and supporting mechanism aims at the inlet of the vertically-arranged shoe to a mould pressing plate (C2) of the material spraying and printing mechanism, the mould pressing plate (C2) can downwards press the ankle part inside the shoe (A), a mould frame of the mould pressing plate (C2) is used as a material spraying and printing area, a material spraying nozzle in the material spraying and printing mechanism is aimed at the lower material spraying and printing area to spray materials, and a Hongkong treasure is formed after the materials are solidified, wherein the shape of the Hongkong treasure is the same as that of the mould pressing plate (C2);

the shoe clamping and supporting mechanism comprises a vertical base (B1), a positioning hook plate, a bearing (B2), a transverse rotating plate (B4), two vertical clamping plates (B5), a U-shaped shoe standing plate (B6) and a U-shaped clamping rod (B7), wherein the bottom surface of the outer diameter of the bearing (B2) is fastened on the top surface of the vertical base (B1) through welding, the bottom plate end of the first positioning hook plate is movably connected to the upper end of the left side surface of the vertical base (B1) through a first pin rod and a first pin string plate, the bottom plate end of the second positioning hook plate (B3) is movably connected to the upper end of the right side surface of the vertical base (B1) through a second pin rod and a second pin string plate, and the first positioning hook plate and the second positioning hook plate (B3) are arranged in a left;

the top surface of the inner diameter of the bearing (B2) is fixedly connected to the middle part of the bottom surface of the transverse rotating plate (B4) through welding, the transverse rotating plate (B4) flexibly rotates through the bearing (B2), and the top end of the first positioning hook plate and the top end of the second positioning hook plate (B3) can be tightly buckled on the edge of the top surface of the transverse rotating plate (B4) so as to realize the positioning purpose of the transverse rotating plate (B4);

the top of the transverse rotating plate (B4) is provided with a left vertical splint and a right vertical splint (B5) which are parallel through screws, a U-shaped shoe standing plate (B6) is clamped between the left vertical splint and the right vertical splint (B5), shoes which are vertically placed in the forward direction can be downwards placed into the U-shaped shoe standing plate (B6), the left side surface of the vertical splint (B5) positioned on the left side and the right side surface of the vertical splint (B5) positioned on the right side can be oppositely clamped by two rod ends of the U-shaped clamping rod (B7), and therefore the purpose that the shoes which are vertically placed in the U-shaped shoe standing plate (B6) in the forward direction can be kept immovable is achieved;

wherein, the material spraying printing mechanism comprises a vertical frame (C1), a mould pressing plate (C2), a material spraying nozzle (C3), a material conveying pipe (C5), an advancing and retreating oil cylinder (C4), a feeding pump (C6), a stirring cylinder (C7) with a stirring motor, a feeding hopper (C8) and a bridging agent bin (C9) with a heating pipe, the vertical frame (C1) adopts a vertical frame formed by welding steel plates, the waist part of the vertical frame (C1) is transversely fastened with a mould pressing plate (C2) by welding, the mould pressing plate (C2) is punched with a die frame in a shape of a treasure, the waist part of the vertical frame (C1) is welded with a transverse plate (C11), the transverse plate (C11) is parallelly installed right above the mould pressing plate (C2), the top surface of the transverse plate (C11) is transversely fastened with the advancing and retreating oil cylinder (C4) by bolts, the piston rod of the oil cylinder (C4) faces to the left, a piston rod (C4) is fastened with the material spraying nozzle (C3, a conical discharge hole protruding downwards is integrally formed at the bottom of the material spraying nozzle (C3), and the material spraying nozzle (C3) is positioned right above the die frame;

a transverse plate II (C12) is welded on the vertical frame (C1), the transverse plate II (C12) is arranged right above the transverse plate I (C11) in parallel, the feeding pump (C6) is fastened on the top surface of the transverse plate II (C12) through bolts, and the discharge hole of the feeding pump (C6) is communicated with the feed inlet at the top of the material spraying nozzle (C3) through a feed delivery pipe (C5);

a transverse plate III (C13) is welded on the vertical frame (C1), the transverse plate III (C13) is arranged right above the transverse plate II (C12) in parallel, a stirring cylinder (C7) with a stirring motor is fastened on the top surface of the transverse plate III (C13) through screws, a push-pull material cutting plate is arranged at a bottom discharge port of a stirring cylinder (C7) with the stirring motor, and a bottom discharge port of the stirring cylinder (C7) with the stirring motor is communicated with a feed port of a feed pump (C6);

a transverse top plate (C14) is welded above a transverse plate III (C13) through a vertical steel plate, a left vertical material hole and a right vertical material hole are cut on the transverse top plate (C14), the left vertical material hole and the right vertical material hole are both communicated with the top inlet of a stirring cylinder (C7) with a stirring motor, a feed hopper (C8) is fastened on the right side of the top surface of the transverse top plate (C14) through welding, the bottom of the feed hopper (C8) is communicated with the vertical material hole on the right side, a bridging agent bin (C9) with a heating pipe is fastened on the left side of the top surface of the transverse top plate (C14) through screws, molten materials of a bridging agent bin (C9) with the heating pipe can fall into the top inlet of the stirring cylinder (C7) with the stirring,

the bridging agent can be poured into a bridging agent bin (C9) with a heating pipe, and the melting point of the bridging agent is 60-85 ℃;

TPU powder and PC powder can be poured into a feed hopper (C8);

the mixing drum (C7) with the mixing motor can fully mix TPU powder, PC powder and molten bridging agent to form a mixture, the feed pump (C6) conveys the mixture to the material spraying nozzle (C3) through the feed delivery pipe (C5), the horizontal movement of the material spraying nozzle (C3) can be controlled by the expansion and contraction of a piston rod of the advancing and retreating oil cylinder (C4), the material spraying nozzle (C3) in the horizontal movement state can spray the mixture on the ankle area of shoes in a mold frame, and the mixture after spraying is solidified, namely, the Bao.