CN204686770U

CN204686770U - Magnetite erecting device

Info

Publication number: CN204686770U
Application number: CN201520257441.XU
Authority: CN
Inventors: 庄子开; 胡凌飞; 李竞帆
Original assignee: TCL King Electrical Appliances Huizhou Co Ltd
Current assignee: TCL King Electrical Appliances Huizhou Co Ltd
Priority date: 2015-04-23
Filing date: 2015-04-23
Publication date: 2015-10-07
Anticipated expiration: 2025-04-23

Abstract

The utility model discloses a kind of magnetite erecting device, the feeding distribution mechanism that described magnetite erecting device comprises feed mechanism and is fixedly connected with described feed mechanism, described feed mechanism is provided with the guide frame for passing through for magnetite; Described magnetite erecting device also comprises the abutment be oppositely arranged with the port of export of described guide frame, and the distance between the side towards the described port of export of described abutment and the described port of export is greater than the thickness of described magnetite; Described feeding distribution mechanism comprises push rod and for driving the first actuator of described pushrod movement, the motion path of described push rod is crossing with the guide direction of described guide frame, described first actuator drives described pushrod movement, move with the magnetite making described push rod promote between the described port of export and abutment, thus achieve and automatically magnetite is separated, reduce the labour intensity that magnetite is installed, improve production efficiency.

Description

Magnetite erecting device

Technical field

The utility model relates to automation equipment field, particularly relates to a kind of magnetite erecting device.

Background technology

At present, a lot of electronic equipment all needs to install magnetite on shell, shell is provided with the groove with magnetite adaptation, magnetite is generally mutually stacked together by the bonding force of magnetic force or double faced adhesive tape before the mounting, in the process of installing magnetite, must first rely on manpower to be separated one by one by magnetite, and then magnetite is mounted in the groove on shell.In the process that magnetite is separated, need larger power to go operation, thus cause labour intensity in magnetite installation process higher.

Utility model content

Main purpose of the present utility model is to provide a kind of magnetite erecting device, is intended to the labour intensity reducing magnetite installation.

A kind of magnetite erecting device that the utility model provides, the feeding distribution mechanism that described magnetite erecting device comprises feed mechanism and is fixedly connected with described feed mechanism, described feed mechanism is provided with the guide frame for passing through for magnetite; Described magnetite erecting device also comprises the abutment be oppositely arranged with the port of export of described guide frame, and the distance between the side towards the described port of export of described abutment and the described port of export is greater than the thickness of described magnetite; Described feeding distribution mechanism comprises push rod and for driving the first actuator of described pushrod movement, the motion path of described push rod is crossing with the guide direction of described guide frame, described first actuator drives described pushrod movement, moves with the magnetite making described push rod promote between the described port of export and abutment.

Preferably, the end deviating from described first actuator of described push rod is arranged with the groove with described magnetite side adaptation, and when described push rod promotes the motion of described magnetite, described groove and described magnetite are fitted.

Preferably, the connecting plate that described feed mechanism comprises the first guide and is fixedly connected with described first guide, described connecting plate is fixedly connected with described first actuator, described guide frame is be opened in the first guide groove on described first guide, and described abutment is fixedly connected with described connecting plate.

Preferably, the motion path of described push rod is vertical with the guide direction of described guide frame.

Preferably, the discharging mechanism that described magnetite erecting device also comprises feeding pressure mechanism and is fixedly connected with described feeding pressure mechanism, described discharging mechanism offers the second guide groove, and the magnetite between the described port of export and abutment is pushed to described second guide groove by described push rod; The second actuator that described feeding pressure mechanism comprises bracing frame, be fixedly connected with support frame as described above and the depression bar be connected with described second actuator, described second actuator drives described depression bar to move, and promotes described magnetite by described second guide groove to make described depression bar; Support frame as described above is fixedly connected with described discharging mechanism.

Preferably, described feeding pressure mechanism also comprises the weightening finish part be fixedly connected with described depression bar.

Preferably, the guide plate that described discharging mechanism comprises the second guide and is fixedly connected with described second guide, described second guide groove is opened on described second guide, and the arrival end of described second guide groove is near described guide plate, described push rod promotes described magnetite and slides along described guide plate, until described magnetite moves to the arrival end of described second guide groove.

Preferably, described guide plate offers adaptive with described magnetite, for sliding for described magnetite chute, one end of described chute is near the port of export of described guide frame, and the other end is near the arrival end of described second guide groove.

Preferably, described guide plate is described abutment.

Preferably, described magnetite erecting device also comprises the handle for gripping, and described handle is fixedly connected with described feed mechanism or feeding distribution mechanism.

The feeding distribution mechanism that the magnetite erecting device that the utility model provides comprises feed mechanism and is fixedly connected with feeding structure, by arranging the guide frame being used for passing through for magnetite at feed mechanism, and be oppositely arranged abutment at the port of export with described guide frame, distance between the side towards the port of export of abutment and the port of export is greater than the thickness of magnetite, feeding distribution mechanism comprises push rod and for driving the first actuator of pushrod movement, the motion path of push rod is crossing with the guide direction of guide frame, first actuator drives pushrod movement, move with the magnetite making push rod promote between the port of export and abutment, thus achieve and automatically magnetite is separated, reduce the labour intensity that magnetite is installed, improve production efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation at a visual angle of the utility model magnetite erecting device preferred embodiment;

Fig. 2 is the structural representation at another visual angle of the utility model magnetite erecting device preferred embodiment;

Fig. 3 is the structural representation of the first guide of the utility model magnetite erecting device;

Fig. 4 is the structural representation of the feeding distribution mechanism of the utility model magnetite erecting device;

Fig. 5 is the structural representation of magnetite;

Fig. 6 is the structural representation of the discharging mechanism of the utility model magnetite erecting device;

Fig. 7 is the second actuator of the utility model magnetite erecting device and the structural representation of depression bar.

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of magnetite erecting device, referring to figs. 1 through Fig. 4, Fig. 1 is the structural representation at a visual angle of the utility model magnetite erecting device preferred embodiment, Fig. 2 is the structural representation at another visual angle of the utility model magnetite erecting device preferred embodiment, Fig. 3 is the structural representation of the first guide of the utility model magnetite erecting device, Fig. 4 is the structural representation of the feeding distribution mechanism of the utility model magnetite erecting device, in one embodiment, the feeding distribution mechanism 20 that this magnetite erecting device comprises feed mechanism 10 and is fixedly connected with described feed mechanism 10, described feed mechanism 10 is provided with the guide frame 111 for passing through for magnetite, described magnetite erecting device also comprises the abutment (not indicating in figure) be oppositely arranged with the port of export of described guide frame 111, and described abutment is greater than the thickness of described magnetite towards the distance between the side and the described port of export of the described port of export, described feeding distribution mechanism 20 comprises push rod 21 and the first actuator 22 for driving described push rod 21 to move, the motion path of described push rod 21 is crossing with the guide direction of described guide frame 111, described first actuator 22 drives described push rod 21 to move, and moves with the magnetite making described push rod 21 promote between the described port of export and abutment.

Above-mentioned magnetite erecting device is used for being separated between magnetite (as shown in Figure 5) by absorption and stacked together, can be applicable to any occasion needing to be separated by magnetite, such as, can be applicable in television set production process, or in computer production process.

In the present embodiment, above-mentioned guide frame 111 moves towards abutment for guiding magnetite, when using above-mentioned magnetite erecting device, magnetite stacked together being put into guide frame 111, and magnetite one end is abutted with abutment.

Preferably, the distance between the side towards the described port of export of described abutment and the described port of export is less than the thickness sum of two blocks of described magnetites.It should be noted that magnetite cylindrical setting substantially, the thickness of magnetite is the length along its axis direction of magnetite.More preferably, the distance between the side towards the described port of export of described abutment and the described port of export slightly larger than the thickness of one block of described magnetite, thus ensure that push rod 21 often moves once, is only separated one block of magnetite.

Above-mentioned first actuator 22 can be a cylinder, or is motor etc.The present embodiment illustrates for cylinder for the first actuator 22.

The motion path of above-mentioned push rod 21 is the movement locus that cylinder drives push rod 21 to move reciprocatingly.The guide direction of above-mentioned guide frame 111 is the direction that guide frame 111 guides magnetite to move.Preferably, the motion path of described push rod 21 is vertical with the guide direction of described guide frame 111, thus it is more laborsaving that push rod 21 is promoted when magnetite moves.

Preferably, in order to improve the reliability of magnetite erecting device further, the end deviating from described first actuator 22 of described push rod 21 is arranged with the groove 211 with described magnetite side adaptation, and when described push rod 21 promotes the motion of described magnetite, described groove 211 is fitted with described magnetite.Because magnetite is generally cylindrical, therefore, above-mentioned groove 211 is substantially in arranging with the cambered surface of cylindric adaptation, the present embodiment is by arranging groove 211 in push rod 21 end, thus make push rod 21 in the process promoting magnetite, push rod 21 can better and between magnetite be fixed, and further provides the reliability of magnetite erecting device.

More preferably, the connecting plate 12 that described feed mechanism 10 comprises the first guide 11 and is fixedly connected with described first guide 11, described connecting plate 12 is fixedly connected with described first actuator 22, described guide frame 111 is for being opened in the first guide groove on described first guide 11, and described abutment is fixedly connected with described connecting plate 12.Preferably, described first guide groove is recessed to form by a side of the first guide 11, and namely the first guide groove has one along the opening of the axis direction of described first guide groove, and the width of this opening is less than the diameter of magnetite, comes off out in the first guide groove to prevent magnetite.By arranging opening, thus making it possible to by the magnetite in this opening real-time monitored first guide groove, to add magnetite in time in the first guide groove, further increasing the efficiency that magnetite is installed.Preferably, the first guide 11 is arranged with connecting plate 12 less perpendicular, and connecting plate 12 is fixedly connected on the end face of the first actuator 22, and the first guide 11 extends to the top of connecting plate 12.

Preferably, above-mentioned magnetite erecting device also comprises the gauge tap worked for controlling the first actuator 22.This gauge tap can be a button, when pressing the button, the first actuator 22 drives push rod 21 to do and once moves back and forth, after the magnetite motion that push rod 21 is promoted between the port of export and abutment, push rod 21 returns back to initial position again, to move back and forth next time.

When using above-mentioned magnetite erecting device, first the magnetite of stacked laminating is placed in guide frame 111, make to abut towards one of abutment block of magnetite with abutment under external force or the effect of magnetite self gravitation, then the first actuator 22 controls push rod 21 and moves, and the magnetite making push rod 21 promote between the port of export and abutment moves, thus force the magnetite between the port of export with abutment to be separated with between the magnetite in guide frame 111, after magnetite is pushed to predeterminated position by push rod 21, push rod 21 returns back to initial position again, to move back and forth next time.

The feeding distribution mechanism 20 that the magnetite erecting device that the utility model provides comprises feed mechanism 10 and is fixedly connected with feeding structure, by arranging the guide frame 111 being used for passing through for magnetite at feed mechanism 10, and be oppositely arranged abutment at the port of export with described guide frame 111, distance between the side towards the port of export of abutment and the port of export is greater than the thickness of magnetite, feeding distribution mechanism 20 comprises push rod 21 and the first actuator 22 for driving push rod 21 to move, the motion path of push rod 21 is crossing with the guide direction of guide frame 111, first actuator 22 drives push rod 21 to move, move with the magnetite making push rod 21 promote between the port of export and abutment, thus achieve and automatically magnetite is separated, reduce the labour intensity that magnetite is installed, improve production efficiency.

Further, in order to reduce the labour intensity that magnetite is installed further, and enhance productivity further, the discharging mechanism 40 that described magnetite erecting device also comprises feeding pressure mechanism 30 and is fixedly connected with described feeding pressure mechanism 30, with reference to Fig. 6, Fig. 6 is the structural representation of the discharging mechanism of the utility model magnetite erecting device, and described discharging mechanism 40 offers the second guide groove 411, and the magnetite between the described port of export and abutment is pushed to described second guide groove 411 by described push rod 21; With reference to Fig. 7, Fig. 7 is the second actuator of the utility model magnetite erecting device and the structural representation of depression bar, the second actuator 32 that described feeding pressure mechanism 30 comprises bracing frame 31, be fixedly connected with support frame as described above 31 and the depression bar 33 be connected with described second actuator 32, described second actuator 32 drives described depression bar 33 to move, and promotes described magnetite by described second guide groove 411 to make described depression bar 33; Support frame as described above 31 is fixedly connected with described discharging mechanism 40.

In the present embodiment, above-mentioned second guide groove 411 is adaptive with magnetite, and preferably, the cross-sectional area of the second guide groove 411 is slightly larger than the cross-sectional area of magnetite.

Preferably, the guide plate 42 that described discharging mechanism 40 comprises the second guide 41 and is fixedly connected with described second guide 41, described second guide groove 411 is opened on described second guide 41, and the arrival end of described second guide groove 411 is near described guide plate 42, described push rod 21 promotes described magnetite and slides along described guide plate 42, until described magnetite moves to the arrival end of described second guide groove 411.The cylindrical shape of above-mentioned second guide 41 substantially in hollow is arranged.

Above-mentioned bracing frame 31 is arranged in tubular substantially, and one end deviating from discharging mechanism 40 of bracing frame 31 is fixedly connected with the second actuator 32.

More preferably, described guide plate 42 is described abutment.Namely guide plate 42 is oppositely arranged with the port of export of guide frame 111, and is abutted with the magnetite stretched out by guide frame 111 by guide plate 42.Preferably, guide plate 42 and the second guide 41 integrated injection molding are arranged.

More preferably, described guide plate 42 offers adaptive with described magnetite, for sliding for described magnetite chute (not indicating in figure), one end of described chute is near the port of export of described guide frame 111, and the other end is near the arrival end of described second guide groove 411.In the present embodiment, above-mentioned chute is the chute for being recessed to form downwards towards the side of guide frame 111 from guide plate 42, and the width of chute is slightly larger than the cross-sectional diameter of magnetite.At the magnetite of laminate adhesive by after guide frame 111, the magnetite being positioned at bottom falls into chute, and abuts with chute diapire, magnetite under the impetus of push rod 21 along slide, until fall into the second guide groove 411.

Above-mentioned magnetite generally needs to be mounted in the cell body on the housing of the electronic installations such as television set, and be interference fit between the cell body of magnetite generally and on tv shell, the cell body therefore needing larger active force magnetite could be mounted on tv shell is inner.The present embodiment is by the discharging mechanism 40 arranging feeding pressure mechanism 30 and be fixedly connected with feeding pressure mechanism 30, when using above-mentioned magnetite erecting device, the port of export of the second guide groove 411 is aimed on the cell body on tv shell, push rod 21 one block of magnetite to be pushed in the second guide groove 411 or directly over the second guide groove 411 time, by starting the second actuator 32, the second actuator 32 is made to drive depression bar 33 to move, depression bar 33 applies pressure to the magnetite in the second guide groove 411, until magnetite by force feed to the cell body inside on tv shell, thus do not need the artificial cell body be pressed into by magnetite on tv shell inner, in order to reduce further the labour intensity that magnetite is installed, and further increase production efficiency.

Further, described feeding pressure mechanism 30 also comprises the weightening finish part 34 be fixedly connected with described depression bar 33.Weightening finish part 34 can be made up of metalwork.By weightening finish part 34 fixing on depression bar 33, when using above-mentioned magnetite erecting device, depression bar 33 is made to be in vertical state or close to vertical state, thus under the Action of Gravity Field of weightening finish part 34, the easier cell body be pressed into by magnetite on tv shell of depression bar 33 is inner, reduces the load of the second actuator 32.

Above-mentioned second actuator 32 can be cylinder, or is motor.Preferably, above-mentioned gauge tap can also control the second actuator 32 and work, this gauge tap can be a button, when pressing the button, second actuator 32 drives depression bar 33 to do and once moves back and forth, make magnetite in depression bar 33 force feed second guide groove 411 in the cell body on tv shell, depression bar 33 returns back to initial position again, to move back and forth next time.

Further, described magnetite erecting device also comprises the handle 50 for gripping, and described handle 50 is fixedly connected with described feed mechanism 10 or feeding distribution mechanism 20.Preferably, handle 50 c-shaped setting substantially, thus be more convenient to user's handling.The present embodiment, by arranging handle 50, making user more be convenient to when using above-mentioned magnetite erecting device grip, improve the convenience of use.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims

1. a magnetite erecting device, is characterized in that, the feeding distribution mechanism that described magnetite erecting device comprises feed mechanism and is fixedly connected with described feed mechanism, and described feed mechanism is provided with the guide frame for passing through for magnetite; Described magnetite erecting device also comprises the abutment be oppositely arranged with the port of export of described guide frame, and the distance between the side towards the described port of export of described abutment and the described port of export is greater than the thickness of described magnetite; Described feeding distribution mechanism comprises push rod and for driving the first actuator of described pushrod movement, the motion path of described push rod is crossing with the guide direction of described guide frame, described first actuator drives described pushrod movement, moves with the magnetite making described push rod promote between the described port of export and abutment.

2. magnetite erecting device as claimed in claim 1, it is characterized in that, the end deviating from described first actuator of described push rod is arranged with the groove with described magnetite side adaptation, and when described push rod promotes the motion of described magnetite, described groove and described magnetite are fitted.

3. magnetite erecting device as claimed in claim 1, it is characterized in that, the connecting plate that described feed mechanism comprises the first guide and is fixedly connected with described first guide, described connecting plate is fixedly connected with described first actuator, described guide frame is be opened in the first guide groove on described first guide, and described abutment is fixedly connected with described connecting plate.

4. magnetite erecting device as claimed in claim 1, it is characterized in that, the motion path of described push rod is vertical with the guide direction of described guide frame.

5. the magnetite erecting device as described in any one of Claims 1-4, it is characterized in that, the discharging mechanism that described magnetite erecting device also comprises feeding pressure mechanism and is fixedly connected with described feeding pressure mechanism, described discharging mechanism offers the second guide groove, and the magnetite between the described port of export and abutment is pushed to described second guide groove by described push rod; The second actuator that described feeding pressure mechanism comprises bracing frame, be fixedly connected with support frame as described above and the depression bar be connected with described second actuator, described second actuator drives described depression bar to move, and promotes described magnetite by described second guide groove to make described depression bar; Support frame as described above is fixedly connected with described discharging mechanism.

6. magnetite erecting device as claimed in claim 5, it is characterized in that, described feeding pressure mechanism also comprises the weightening finish part be fixedly connected with described depression bar.

7. magnetite erecting device as claimed in claim 5, it is characterized in that, the guide plate that described discharging mechanism comprises the second guide and is fixedly connected with described second guide, described second guide groove is opened on described second guide, and the arrival end of described second guide groove is near described guide plate, described push rod promotes described magnetite and slides along described guide plate, until described magnetite moves to the arrival end of described second guide groove.

8. magnetite erecting device as claimed in claim 7, it is characterized in that, described guide plate offers adaptive with described magnetite, for sliding for described magnetite chute, one end of described chute is near the port of export of described guide frame, and the other end is near the arrival end of described second guide groove.

9. magnetite erecting device as claimed in claim 7, it is characterized in that, described guide plate is described abutment.

10. magnetite erecting device as claimed in claim 5, it is characterized in that, described magnetite erecting device also comprises the handle for gripping, and described handle is fixedly connected with described feed mechanism or feeding distribution mechanism.