CN112829196A

CN112829196A - Automatic operation panel is used in zip fastener production of moulding plastics of material loading

Info

Publication number: CN112829196A
Application number: CN202011607505.6A
Authority: CN
Inventors: 施能延
Original assignee: Jinjiang Xunguuang Zipper Co ltd
Current assignee: Jinjiang Xunguuang Zipper Co ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2021-05-25

Abstract

The invention discloses an operating platform for automatic feeding injection molding zipper production, which comprises an injection molding machine main body and a hopper, wherein the injection molding machine main body is arranged on the operating platform, the hopper is arranged on the feeding end of the injection molding machine main body, a raw material storage mechanism is arranged on one side of the operating platform, an auxiliary feeding mechanism is arranged on the operating platform, one end of the auxiliary feeding mechanism is communicated with the raw material storage mechanism, the other end of the auxiliary feeding mechanism extends into the hopper, and a temperature-controlled preheating mechanism is sleeved outside the auxiliary feeding mechanism. Thereby improving the operation efficiency of the injection molding machine main body.

Description

Automatic operation panel is used in zip fastener production of moulding plastics of material loading

Technical Field

The invention relates to the technical field of zipper processing, in particular to an operating table for automatic feeding injection molding zipper production.

Background

The zipper is a common daily article in daily life of people, is mainly applied to clothes, bags and the like to play a role in opening and closing, and the injection molded zipper on the market is formed by combining a cloth belt and zipper teeth, wherein the cloth belt is formed by weaving a central line, a group of common warps and a continuous weft in a staggered manner; the central line is also called as the band rib of the zipper cloth band, is a thicker warp in the cloth band and is formed by combining a group of yarns; the common warp yarns are mainly terylene low stretch yarns, more than 50 warp yarns are different, the warp-wise continuous cloth belt part of the combining surface of the cloth belt and the chain tooth is the core part area of the cloth belt, the area comprises a central line and a part of warp yarns, and the rest warp yarns are distributed outside the combining surface of the cloth belt and the chain tooth; the zipper teeth are in a single particle state and are uniformly spaced, a thicker central line part in a cloth belt is clamped, injection molding materials (mostly polyformaldehyde) are heated and melted through an injection molding machine, the melted injection molding materials are extruded and injected to an injection molding zipper forming mold through a screw rod of the injection molding machine, and the zipper cloth belt is placed in the middle of the injection molding zipper forming mold; thus, after the injection molding material is cooled and solidified, the zipper teeth are formed and wrap the central line of the zipper cloth belt so as to be combined with the zipper cloth belt to form the injection molding zipper chain, and the injection molding machine is also called an injection molding machine or an injection machine. The injection molding machine in the prior art mostly adopts a manual feeding mode to feed raw material particles into a hopper, has complex operation and high labor intensity, cannot preheat the raw materials, and influences the operation efficiency of the injection molding machine.

Disclosure of Invention

The invention aims to solve the problems, designs an operating platform for producing an automatic-feeding injection-molded zipper, and solves the problems in the background art.

The technical scheme of the invention for realizing the aim is as follows: an automatic-feeding operation table for injection molding zipper production comprises an injection molding machine main body and a hopper, wherein the injection molding machine main body is arranged on the operation table, the hopper is arranged at the feeding end of the injection molding machine main body, a raw material storage mechanism is arranged on one side of the operation table, an auxiliary feeding mechanism is arranged on the operation table, one end of the auxiliary feeding mechanism is communicated with the raw material storage mechanism, the other end of the auxiliary feeding mechanism extends into the hopper, and a temperature-control preheating mechanism is sleeved on the outer side of the auxiliary feeding mechanism;

the raw material storage mechanism includes: the device comprises a fixing frame, a bin, a conical hopper and a retention monitoring assembly, wherein the fixing frame is arranged on one side of an operating platform, the bin is arranged on the fixing frame, the conical hopper is arranged on the lower end of the bin, and the retention monitoring assembly is arranged on the inner side wall surface of the bin;

supplementary feeding mechanism includes: the anti-blocking feeding device comprises a support frame, a screw feeder and an anti-blocking feeding structure, wherein the support frame is arranged on an operating platform, the screw feeder is arranged on the support frame along an inclined direction, a feeding end of the screw feeder is positioned below a conical hopper, a discharging end of the screw feeder extends into the hopper, the anti-blocking feeding structure is arranged on the feeding end of the screw feeder, and one end of the anti-blocking feeding structure extends into the conical hopper;

accuse temperature preheats the mechanism and includes: the water tank is arranged below the support frame, the heating temperature control structure is arranged in the water tank, and the circulating heat conduction structure is sleeved on the outer side wall surface of the screw feeder and communicated with the water tank.

The retention monitoring assembly includes: mount pad, infrared range finder and video collector, the mount pad sets up on the up end of feed bin, infrared range finder sets up on the lower terminal surface of mount pad, and the transmitting terminal is perpendicular downwards, video collector sets up in infrared range finder one side, and the directional feed bin inboard of camera lens end.

Prevent stifled feed structure includes: mounting bracket, protecting crust, rotary motor and strike and break and encircle the subassembly, the mounting bracket sets up in screw feeder's feed end, the protecting crust sets up on the central point of mounting bracket puts, rotary motor sets up in the protecting crust and the drive end stretches out the up end outside of protecting crust, strike and break and encircle the subassembly and set up on rotary motor's drive end.

The impact arch-breaking assembly comprises: the rotary shaft is arranged at the driving end of the rotary motor, and the impact columns are arranged on the side wall of the rotary shaft along the annular array.

The heating temperature control structure comprises: the temperature probe is arranged in the water tank, the heater is arranged on one side of the temperature probe, and the controller module is arranged on the outer side wall surface of the water tank and is respectively connected with the temperature probe and the heater.

The circulating heat conducting structure includes: the water tank is provided with a circulating pump, a contact type heat exchange assembly and a heat conducting pipe, the circulating pump is arranged on the water tank, the water inlet end of the circulating pump is communicated with the water tank, the contact type heat exchange assembly is sleeved on the outer side wall surface of the screw feeder and attached to the side wall of the screw feeder, one end of the contact type heat exchange assembly is communicated with the water outlet end of the circulating pump, one end of the heat conducting pipe is communicated with the contact type heat exchange assembly, and the other end of the heat conducting.

The contact heat exchange assembly comprises: the spiral heat exchange tube is sleeved on the outer side wall surface of the spiral feeder, the protective cover is buckled on the outer side of the spiral heat exchange tube, one end of the spiral heat exchange tube is communicated with the circulating pump, and the other end of the spiral heat exchange tube is communicated with the heat conduction tube.

The side wall of the storage bin is provided with a long round transparent window, and the side wall of the transparent window is provided with scale marks.

And a vibration motor is arranged on the side wall of the conical hopper.

The upper end surface of the protective shell is a conical surface.

The operation table for producing the automatic-feeding injection-molding zipper, which is manufactured by the technical scheme of the invention, is characterized in that an injection molding machine main body is arranged on the operation table, a raw material storage mechanism is arranged on one side of the operation table, an auxiliary feeding mechanism is arranged between the raw material storage mechanism and a hopper of the injection molding machine main body, full-automatic feeding is realized, manpower is saved, a temperature-control preheating mechanism is sleeved on the outer side of the auxiliary feeding mechanism, raw materials can be preheated in a feeding process while the injection molding machine main body is automatically fed, and further the operation efficiency of the injection molding machine main body is improved.

Drawings

FIG. 1 is a schematic front view structure diagram of an operating console for producing an automatic-feeding injection-molded zipper according to the present invention.

FIG. 2 is a schematic top view of an operating table for producing an automatic-feeding injection-molded zipper according to the present invention.

FIG. 3 is a schematic structural view of a front cross section of an anti-blocking feeding structure of an operating console for producing an automatic feeding injection molding zipper.

FIG. 4 is a schematic sectional view of a water tank of an operating table for automatic feeding and injection molding of zipper production according to the present invention.

FIG. 5 is a schematic view of a partially enlarged structure of a position a of an operating platform for producing an automatic feeding injection molding zipper according to the present invention.

FIG. 6 is a schematic view of a partially enlarged structure at position b of an operating platform for producing an automatic feeding injection molded zipper according to the present invention.

In the figure: 1-injection molding machine body; 2-a hopper; 3-a fixing frame; 4-a storage bin; 5-a cone-shaped hopper; 6-a support frame; 7-a screw feeder; 8-a water tank; 9-a mounting seat; 10-an infrared range finder; 11-a video collector; 12-a mounting frame; 13-a protective shell; 14-a rotary electric machine; 15-a rotating shaft; 16-impact column; 17-a temperature probe; 18-a heater; 19-a controller module; 20-a circulating pump; 21-a heat conducting pipe; 22-spiral heat exchange tubes; 23-a protective cover; 24-a transparent window; 25-vibration motor.

Detailed Description

The present invention is described in detail below with reference to the accompanying drawings, as shown in fig. 1 to 6, all electrical components in the present application are connected to their adapted power supplies through wires, and an appropriate controller should be selected according to actual situations to meet control requirements, and specific connection and control sequence should be implemented by referring to the following working principle, in which the electrical connection between the electrical components is implemented in sequence, and the detailed connection means is a known technology in the art, and the following description mainly describes the working principle and process, and does not describe the electrical control.

Example (b): as can be known from the attached drawings 1-6 of the specification, the scheme comprises an injection molding machine main body 1 and a hopper 2, the position relation and the connection relation are as follows, the injection molding machine main body 1 is arranged on an operation table, the hopper 2 is arranged on the feeding end of the injection molding machine main body 1, a raw material storage mechanism is arranged on one side of the operation table, an auxiliary feeding mechanism is arranged on the operation table, one end of the auxiliary feeding mechanism is communicated with the raw material storage mechanism, the other end of the auxiliary feeding mechanism extends into the hopper 2, a temperature-controlled preheating mechanism is sleeved outside the auxiliary feeding mechanism, the injection molding machine main body 1 is arranged on the operation table, the raw material storage mechanism is arranged on one side of the operation table, the auxiliary feeding mechanism is arranged between the raw material storage mechanism and the hopper 2 of the injection molding machine main body 1, the full-automatic feeding is realized, the manpower is saved, the temperature-controlled preheating, thereby improving the operation efficiency of the injection molding machine main body 1;

the above-mentioned raw materials storage mechanism includes: the device comprises a fixed frame 3, a bin 4, a conical hopper 5 and a retention monitoring assembly, wherein the fixed frame 3 is arranged on one side of an operating platform, the bin 4 is arranged on the fixed frame 3, the conical hopper 5 is arranged on the lower end of the bin 4, the retention monitoring assembly is arranged on the inner side wall surface of the bin 4, when the device is used, raw materials are stored in the bin 4, and the material level height of the raw materials is monitored through the retention monitoring assembly;

above-mentioned supplementary feeding mechanism includes: the injection molding machine comprises a support frame 6, a screw feeder 7 and an anti-blocking feeding structure, wherein the support frame 6 is arranged on an operation table, the screw feeder 7 is arranged on the support frame 6 along the inclined direction, the feeding end is positioned below a conical hopper 5, the discharging end of the screw feeder 7 extends into the hopper 2, the anti-blocking feeding structure is arranged on the feeding end of the screw feeder 7, one end of the anti-blocking feeding structure extends into the conical hopper 5, when the injection molding machine is used, materials in the conical hopper 5 at the lower end of a storage bin 4 are led out into the feeding port of the screw feeder 7 through the anti-blocking feeding structure, the situation of material blocking is prevented, and the operation efficiency of the injection molding machine main body 1 is;

the temperature control preheating mechanism comprises: water tank 8, heating accuse temperature structure and circulation heat conduction structure, water tank 8 set up in support frame 6 below, and heating accuse temperature structure sets up in water tank 8, and circulation heat conduction structure suit is on screw feeder 7's outside wall, and is linked together with water tank 8, can preheat the material in screw feeder 7 to the improvement enters into the raw materials initial temperature in hopper 2, improves the operating efficiency.

As can be seen from FIGS. 1-2 and 5 of the specification, in one embodiment, the retention monitoring assembly comprises: mount pad 9, infrared range finder 10 and video collector 11, mount pad 9 sets up on the up end of feed bin 4, infrared range finder 10 sets up on the lower terminal surface of mount pad 9, and the transmitting terminal is perpendicular downward, video collector 11 sets up in infrared range finder 10 one side, and the directional feed bin 4 inboards of camera lens end, when using, measure the height of material level in the feed bin 4 through infrared range finder 10, cooperate video collector 11 simultaneously, can even know the material condition of feed bin 4, guarantee job stabilization nature.

As can be seen from the accompanying drawings 1-3 of the specification, in the specific implementation process, the anti-blocking feeding structure comprises: mounting bracket 12, protecting crust 13, rotary motor 14 and strike and break the subassembly of encircleing, mounting bracket 12 sets up in screw feeder 7's feed end, and protecting crust 13 sets up on the central point of mounting bracket 12 puts, and rotary motor 14 sets up in protecting crust 13, and the drive end stretches out the up end outside of protecting crust 13, strikes and breaks the subassembly of encircleing and sets up on rotary motor 14's drive end, and wherein strike and break the subassembly of encircleing and include: pivot 15 and a plurality of impact post 16, pivot 15 sets up on rotary motor 14's drive end, a plurality of impact post 16 set up on pivot 15 lateral wall along annular array, when using, the material in the feed bin 4 is under gravity and pressure operation, extrude each other between the material, consequently, it forms the bracket easily at the lower extreme open position of conical hopper 5, thereby block up the unloading passageway, influence normal pay-off operation, consequently, can start through rotary motor 14 in the control protecting crust 13, rotary motor 14's drive end rotates, then drive pivot 15 and rotate, pivot 15 rotates and drives impact post 16 and rotate, thereby strike the material, thereby make the material loose back, enter into the feed end of screw feeder, and in carrying to hopper 2 via screw feeder.

As can be seen from the accompanying drawings 1-2, 4 and 6 in the specification, the heating and temperature control structure comprises: temperature probe 17, heater 18 and controller module 19, temperature probe 17 sets up in water tank 8, and heater 18 sets up in temperature probe 17 one side, and controller module 19 sets up on the outside wall of water tank 8, and is connected with temperature probe 17 and heater 18 respectively, and above-mentioned circulation heat conduction structure includes: circulating pump 20, contact heat exchange assemblies and heat pipe 21, circulating pump 20 set up on water tank 8, and the end of just intaking is linked together with water tank 8, contact heat exchange assemblies suit on screw feeder 7's outside wall, and laminate mutually with screw feeder 7's lateral wall, contact heat exchange assemblies's one end is linked together with circulating pump 20's play water end, and heat pipe 21's one end is linked together with contact heat exchange assemblies, and the other end is linked together with water tank 8, and wherein contact heat exchange assemblies includes: a spiral heat exchange tube 22 and a protective cover 23, the spiral heat exchange tube 22 is sleeved on the outer side wall surface of the spiral feeder 7, the protective cover 23 is buckled outside the spiral heat exchange tube 22, one end of the spiral heat exchange tube 22 is communicated with the circulating pump 20, the other end is communicated with the heat conduction tube 21, when in use, the water body in the water tank 8 is heated by the heater 18, the water body problem is detected by the temperature probe 17, when the temperature reaches the set value, the controller module 19 controls the circulating pump 20 to start, the circulating pump 20 leads out the high-temperature water in the water tank 8, and is injected into the spiral heat exchange tube 22, the spiral heat exchange tube 22 transfers the heat to the side wall of the screw feeder 7 and further transfers the heat to the material, thereby realize the function of preheating to the material, the low temperature water after the heat transfer flows back to the box in through heat pipe 21, heats once more, and protection casing 23 can effectually avoid the heat to run off.

In the specific implementation process, the side wall of the stock bin 4 is provided with a transparent window 24 in a long circle shape, and the side wall of the transparent window 24 is provided with scale marks, so that the material level height in the stock bin 4 can be conveniently observed.

In the specific implementation process, the vibration motor 25 is arranged on the side wall of the conical hopper 5, so that the blanking speed is increased.

In the specific implementation process, the upper end surface of the protective shell 13 is a conical surface, so that materials are prevented from being accumulated on the protective shell 13.

To sum up, this automatic feeding is moulded plastics operation panel for zip fastener production, set up injection molding machine main part 1 on the operation panel, be provided with raw materials storage mechanism in operation panel one side, it is by supplementary feeding mechanism to set up between hopper 2 of raw materials storage mechanism and injection molding machine main part 1, full-automatic feeding, use manpower sparingly, supplementary feeding mechanism's outside cover is equipped with accuse temperature and is preheated the mechanism, preheat the raw materials at the feeding in-process when can realize the automatic feed to injection molding machine main part 1, and then improve the operating efficiency of injection molding machine main part 1, the prior art has been solved, the injection molding machine mostly adopts the mode of manual material feeding, drop into in hopper 2 with raw materials granule, the operation is comparatively complicated, intensity of labour is great, and can't preheat the raw materials, influence the problem of injection molding machine operating efficiency.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. An automatic feeding operation table for injection molding zipper production comprises an injection molding machine main body and a hopper, and is characterized in that the injection molding machine main body is arranged on the operation table, the hopper is arranged on a feeding end of the injection molding machine main body, a raw material storage mechanism is arranged on one side of the operation table, an auxiliary feeding mechanism is arranged on the operation table, one end of the auxiliary feeding mechanism is communicated with the raw material storage mechanism, the other end of the auxiliary feeding mechanism extends into the hopper, and a temperature control preheating mechanism is sleeved on the outer side of the auxiliary feeding mechanism;

2. The station of claim 1, wherein the retention monitor assembly comprises: mount pad, infrared range finder and video collector, the mount pad sets up on the up end of feed bin, infrared range finder sets up on the lower terminal surface of mount pad, and the transmitting terminal is perpendicular downwards, video collector sets up in infrared range finder one side, and the directional feed bin inboard of camera lens end.

3. The automatic operation panel is used in zip fastener production of moulding plastics of material loading according to claim 2, characterized in that, prevent stifled feeding structure includes: mounting bracket, protecting crust, rotary motor and strike and break and encircle the subassembly, the mounting bracket sets up in screw feeder's feed end, the protecting crust sets up on the central point of mounting bracket puts, rotary motor sets up in the protecting crust and the drive end stretches out the up end outside of protecting crust, strike and break and encircle the subassembly and set up on rotary motor's drive end.

4. The station of claim 3, wherein the impact breaking assembly comprises: the rotary shaft is arranged at the driving end of the rotary motor, and the impact columns are arranged on the side wall of the rotary shaft along the annular array.

5. The automatic operation panel is used in production of material loading injection moulding zip fastener of claim 4, characterized in that, heating accuse temperature structure includes: the temperature probe is arranged in the water tank, the heater is arranged on one side of the temperature probe, and the controller module is arranged on the outer side wall surface of the water tank and is respectively connected with the temperature probe and the heater.

6. The automatic feeding injection molding zipper production console of claim 5, wherein the circulating heat conducting structure comprises: the water tank is provided with a circulating pump, a contact type heat exchange assembly and a heat conducting pipe, the circulating pump is arranged on the water tank, the water inlet end of the circulating pump is communicated with the water tank, the contact type heat exchange assembly is sleeved on the outer side wall surface of the screw feeder and attached to the side wall of the screw feeder, one end of the contact type heat exchange assembly is communicated with the water outlet end of the circulating pump, one end of the heat conducting pipe is communicated with the contact type heat exchange assembly, and the other end of the heat conducting.

7. The automatic feeding injection molding zipper production console of claim 6, wherein the contact heat exchange assembly comprises: the spiral heat exchange tube is sleeved on the outer side wall surface of the spiral feeder, the protective cover is buckled on the outer side of the spiral heat exchange tube, one end of the spiral heat exchange tube is communicated with the circulating pump, and the other end of the spiral heat exchange tube is communicated with the heat conduction tube.

8. The operating table for producing the automatic-feeding injection-molded zipper according to claim 1, wherein a transparent window in a long circular shape is arranged on the side wall of the storage bin, and scale marks are arranged on the side wall of the transparent window.

9. The operating table for producing the automatic feeding injection-molded zipper according to claim 1, wherein a vibrating motor is arranged on the side wall of the conical hopper.

10. The operating table for producing the automatic feeding injection-molded zipper according to claim 3, wherein the upper end surface of the protective shell is a conical surface.