CN203566388U - Ejector and feeding device for mini-cutters - Google Patents

Abstract

The utility model is applicable to the technical field of mini-cutter extraction and provides an ejector and a feeding device for mini-cutters. The ejector and the feeding device for the mini-cutters aim to solve the problem that in the prior art, when one mini-cutter is taken out of a storage box, the mini-cutter is prone to damage. The ejector for the mini-cutters comprises a storage box and a push box, wherein the mini-cutters are inserted in the storage box, and the push box is used in cooperation with the storage box to eject the mini-cutters. The storage box is provided with multiple inserting holes which are arranged in an array, and the mini-cutters are inserted in the inserting holes. The push box comprises a bottom plate and multiple ejector pins, wherein the ejector pins are arranged in an array and protrude along the bottom plate, and the ejector pins are inserted in the inserting holes to abut against the mini-cutters. According to the ejector for the mini-cutters, the ejector pins in the push box are used for ejecting the mini-cutters from the inserting holes of the storage box simultaneously so that the mini-cutters can be taken out of the storage box conveniently, and the situation that large acting force is applied to the mini-cutters and causes damage to the mini-cutters is avoided.

Description

Min-cutter ejector and feeding device

Technical field

The utility model belongs to the taking-up technical field of min-cutter, relates in particular to a kind of min-cutter ejector and has the feeding device of this min-cutter ejector.

Background technology

Conventionally, min-cutter comprises microbit and mini milling cutter etc., is mainly used in the processing of printed circuit board (PCB).In the process of printed circuit board (PCB), extremely accurate to the dimensional requirement of min-cutter, min-cutter small-sized, take microbit as example, its diameter is generally less than 3.175mm, and the common employing of the quality of min-cutter is the fragile materials such as carbide alloy.Min-cutter generally inserts in material-storing box, in use, when the material loading parts of process equipment take out min-cutter from material-storing box, during material loading, need the workman by hand can be by min-cutter taking-up from material-storing box, like this, easily cause the cutter head damage of min-cutter and easily feeding people caused and stabbed.

Utility model content

The purpose of this utility model is to provide a kind of min-cutter ejector, adopts described pusher box by described min-cutter jack-up from material-storing box, is intended to solve the problem of in prior art, min-cutter being taken out from material-storing box to easy damage min-cutter.

The utility model is to realize like this, a kind of min-cutter ejector, comprise and insert the material-storing box of min-cutter and be used in conjunction with by the pusher box of described min-cutter jack-up with described material-storing box, described material-storing box is provided with multiple array settings and for inserting the jack of described min-cutter, described pusher box comprises chassis and multiple array setting and along the outstanding thimble in described chassis, described thimble inserts in described jack to support described min-cutter.

Further, described min-cutter comprises the blade part that inserts the shank portion in described jack and extend along described shank portion, and described thimble comprises away from described chassis and for supporting the support end of described shank portion.

Further, described pusher box also comprises that described protuberance and described chassis are integrated along the outstanding protuberance with material-storing box sidewall described in double team of described chassis edge.

Further, described thimble and described chassis are that integrated or described thimble is fixedly installed on described chassis.

Further, described pusher box also comprises the top board that is fixedly installed on described chassis and is provided with described thimble, and described thimble and described top board are that integrated or described thimble is fixedly installed on described top board.

The utility model is to realize like this, a kind of feeding device is also provided, be used for min-cutter being taken out and comprising the loading plate that the described min-cutter taking out is mounted to process equipment, described loading plate comprises flitch and multiple outstanding and be the guide pillar of array distribution along described upper flitch, and described loading plate is also provided with corresponding with described guide pillar and runs through the accommodating hole of described upper flitch and described guide pillar; Described feeding device also comprises and inserts the material-storing box of min-cutter and be used in conjunction with by the pusher box of described min-cutter jack-up with described material-storing box, described material-storing box is between described pusher box and described loading plate and be provided with multiple array settings and for inserting the jack of described min-cutter, described pusher box comprises chassis and multiple array setting and along the outstanding thimble in described chassis, described thimble inserts in described jack and supports described min-cutter so that described min-cutter inserts in described accommodating hole.

Further, described min-cutter comprises the blade part that inserts the shank portion in described jack and extend along described shank portion, described shank portion comprises handle of a knife and the ring platform that is connected described handle of a knife and described blade part, and described thimble comprises away from described chassis and for supporting the support end of described handle of a knife end.

Further, described accommodating hole comprises the first accepting hole of accommodating described blade part and mutually connects with described the first accepting hole and for the second accepting hole of accommodating described ring platform, described loading plate is also provided with and is positioned at the open slot communicating on described guide pillar and with described the second accepting hole.

Further, described pusher box also comprises along the outstanding protuberance with material-storing box sidewall described in double team of described chassis edge, and described protuberance and described chassis are by one-body molded and make.

Further, described thimble and described chassis are that integrated or described thimble is fixedly installed on described chassis; Or

Described pusher box also comprises the top board that is fixedly installed on described chassis and is provided with described thimble, and described thimble and described top board are integrated.

Min-cutter ejector of the present utility model utilizes thimble in pusher box by min-cutter jack-up simultaneously from the jack of material-storing box, so that min-cutter is taken out from material-storing box, thereby avoided the damage to min-cutter, and prevented from occurring because of artificial accident of stabbing people while taking out min-cutter.

Accompanying drawing explanation

Fig. 1 is the structural representation of the min-cutter ejector that provides of the utility model embodiment.

Fig. 2 is the structural representation of the pusher box of the min-cutter ejector of Fig. 1.

Fig. 3 is the structural representation of the min-cutter of Fig. 1 min-cutter ejector.

Fig. 4 is that the pusher box of min-cutter ejector of Fig. 1 is by the structural representation of min-cutter jack-up.

Fig. 5 is the structural representation of the feeding device that provides of the utility model embodiment.

Fig. 6 is the structural representation of the loading plate of the feeding device of Fig. 5.

Fig. 7 is the cutaway view of the loading plate of the feeding device of Fig. 5.

The specific embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Please refer to Fig. 1, the min-cutter ejector that the utility model embodiment provides, comprise and insert the material-storing box 2 of min-cutter 1 and be used in conjunction with by the pusher box 3 of described min-cutter 1 jack-up with described material-storing box 2, described material-storing box 2 is provided with multiple array settings and for inserting the jack 21 of described min-cutter 1, described pusher box 3 comprises chassis 31 and multiple array setting and along the outstanding thimble 32 in described chassis 31, described thimble 32 inserts in described jack 21 to support described min-cutter 1.Understandably, described jack 21 is that interval in column in a row arranges, and the jack 21 of each row and each row is equidistant distribution, and alternatively, material-storing box 2 is provided with 50 described jacks 21, and 21 one-tenth 5 row's 10 column distributions of each jack; Described thimble 32 is also setting in column in a row, and the thimble 32 of each row and each row is equidistant distribution with corresponding with described jack 21, alternatively, on described pusher box 3, comprise 50 described thimbles 32, and 32 one-tenth 5 row's 10 column distributions of each described thimble are with corresponding with described jack 21.More preferably, the quantity of the min-cutter 1 of required jack-up is less than or equal to the quantity on jack 21 on material-storing box 2, for example, and the multiple that the quantity of the min-cutter 1 of each jack-up is 10, at every turn for example, by the quantity of the min-cutter 1 of jack-up identical with the quantity of jack 21 (, 50) at most.A jack 21 inserts a min-cutter 1, during use, material-storing box 2 is positioned over to described pusher box 3 tops so that thimble 32 inserts in described jack 21, and by min-cutter 1 jack-up from jack 21.This min-cutter 1 ejector utilizes thimble 32 in pusher box 3 by min-cutter 1 jack-up from the jack 21 of material-storing box 2, so that min-cutter 1 is taken out from material-storing box 2, and easily damage min-cutter 1 without applying compared with large active force on min-cutter 1, and can prevent from causing because of artificial taking-up the accident of stabbing.

Referring to Fig. 2 to Fig. 4, further, described min-cutter 1 comprises the blade part 12 that inserts the shank portion 11 in described jack 21 and extend along described shank portion 11, and described thimble 32 comprises away from described chassis 31 and for supporting the support end 321 of described shank portion 11.Understandably, a jack 21 can insert the shank portion 11 of a min-cutter 1, this shank portion 11 also comprises handle of a knife 111 and connects the ring platform 112 of handle of a knife 111 and blade part 12, the external diameter of described ring platform 112 is obviously greater than the external diameter of handle of a knife 111, described jack 21 is stepped hole, comprise first hole (not shown) of accommodating handle of a knife 111 and mutually connect the second hole (not shown) with holding ring platform 112 with described the first hole, and the aperture in the second hole is obviously greater than the aperture in the first hole, the aperture in the first hole is a bit larger tham or equals the length that the external diameter of handle of a knife 111 and the hole depth in the first hole are greater than handle of a knife 111, the aperture in the second hole is a bit larger tham or equals to encircle the external diameter of platform 112 and the hole depth in the second hole equates with the height of ring platform 112, so that insert.During use, pusher box 3 and blade part 12 are positioned at the relative both sides of material-storing box 2, it is thimble 32 is supported shank portion 11 end along jack 21, particularly, the support end 321 of thimble 32 is inserted in described jack 21 and is supported the end of shank portion 11, alternatively, the length of the height of thimble 32 and handle of a knife 111 is less than or equal to the hole depth (or thickness of material-storing box 2) of jack 21, so that shank portion 11 is from the interior rising certain altitude of described jack 21, this lifting height is less than or equal to the height of described ring platform 112, encircle platform 112 outstanding and shank portion 11 is contained in the first hole and part is contained in the second hole along described the second hole, like this, can by the first hole, to min-cutter 1, position and guarantee that min-cutter 1 is in erectility, be convenient to extraction device takes out min-cutter 1 from jack 21, alternatively, described extraction device can be loader or other devices.

Please refer to Fig. 2, further, described pusher box 3 also comprises along 31 edges, described chassis the outstanding protuberance 33 with 2 sidewalls of material-storing box described in double team, and described protuberance 33 and described chassis 31 are by one-body molded and make.Understandably, described protuberance 33 is outstanding or outstanding along each corner on described chassis 31 along each side on described chassis 31, and each described protuberance 33 and chassis 31 form the accommodation space 34 of accommodating described material-storing box 2.Take material-storing box 2, be cube structure as example, during use, material-storing box 2 is positioned on the chassis 31 of pusher box 3, material-storing box 2 parts are placed in described accommodation space 34 and 33 armfuls of protuberances are located at the sidewall of material-storing box 2, damage min-cutter 1 to prevent in use procedure material-storing box 2 to occur rocking on pusher box 3.

Please refer to Fig. 2 and Fig. 4, further, described thimble 32 is that integrated or described thimble 32 is fixedly installed on described chassis 31 with described chassis 31.During use, all thimbles 32 on pusher box 3 all can insert in jack 21, with the min-cutter 1 in jack-up corresponding jack 21, that is to say, when having inserted two row's min-cutters 1 in material-storing box 2, thimble 32 in pusher box 3 all inserts in jack 21, and the thimble 32 corresponding with this two rows min-cutter 1 can be by the min-cutter in corresponding jack 21 1 jack-up simultaneously; When the interior min-cutter 1 that all inserted of each jack 21 in material-storing box 2, thimble 32 will be simultaneously by all min-cutter 1 jack-up; And each min-cutter 1 is roughly the same by the height of jack-up, easy to use.In other embodiments, described thimble 32 is riveted joint, bonding or other non-dismountable connected modes with described chassis 31.Alternatively, described chassis 31 is provided with the fixing hole (not shown) for fixedly mounting described thimble 32, like this, by one end of thimble 32 being closely connected in fixing hole so that described thimble 32 be fixedly connected with chassis 31, more preferably, described thimble 32 is 5mm with the degree of depth that coordinates of described fixing hole, and the length on described thimble 32 outstanding described chassis 31 is greater than or equal to 9mm.

Please refer to Fig. 2 and Fig. 4, further, described pusher box 3 also comprises the top board (not shown) that is fixedly installed on described chassis 31 and is provided with described thimble 32, and described thimble 32 is that integrated or described thimble is fixedly installed on described top board with described top board.Understandably, utilize the fixtures such as bolt, screw, screw that top board is fixedly installed on chassis 31, the mode that also can utilize buckle to connect is fixedly installed in top board on chassis 31, or other can be realized hard-wired mode and all can.Described top board can be between chassis 31 and material-storing box 2, also can be positioned at a side that deviates from material-storing box 2 on chassis 31, and chassis 31 is provided with the through hole (not shown) passing for thimble 32.In other embodiments, described thimble 32 is riveted joint, bonding or other non-dismountable connected modes with described top board.Alternatively, described top board is provided with the fixing hole (not shown) for fixedly mounting described thimble 32, like this, by one end of thimble 32 being closely connected in fixing hole so that described thimble 32 be fixedly connected with top board, more preferably, described thimble 32 is 5mm with the degree of depth that coordinates of described fixing hole, and the length on described thimble 32 outstanding described chassis 31 is greater than or equal to 9mm.

Please refer to Fig. 5, the utility model embodiment also provides feeding device, be used for min-cutter 1 being taken out and comprising the loading plate 4 that the described min-cutter 1 taking out is mounted to process equipment, described loading plate 4 comprises flitch 41 and multiple outstanding and be the guide pillar 42 of array distribution along described upper flitch 41, and described loading plate 4 is also provided with corresponding with described guide pillar 42 and runs through the accommodating hole 43 of described upper flitch 41 and described guide pillar 42; Described feeding device also comprises and inserts the material-storing box 2 of min-cutter 1 and be used in conjunction with by the pusher box 3 of described min-cutter 1 jack-up with described material-storing box 2, described material-storing box 2 is between described pusher box 3 and described loading plate 4 and be provided with multiple array settings and for inserting the jack 21 of described min-cutter 1, described pusher box 3 comprises chassis 31 and multiple array setting and along the outstanding thimble 32 in described chassis 31, described thimble 32 inserts in described jack 21 and supports described min-cutter 1 so that described min-cutter 1 inserts in described accommodating hole 43.Understandably, described jack 21 is that interval in column in a row arranges, and the jack 21 of each row and each row is equidistant distribution, and alternatively, material-storing box 2 is provided with 50 described jacks 21, and 21 one-tenth 5 row's 10 column distributions of each jack; Described thimble 32 is also setting in column in a row, and the thimble 32 of each row and each row is equidistant distribution with corresponding with described jack 21, alternatively, on described pusher box 3, comprise 50 described thimbles 32, and 32 one-tenth 5 row's 10 column distributions of each described thimble are with corresponding with described jack 21.More preferably, the quantity of the min-cutter 1 of required jack-up is less than or equal to the quantity on jack 21 on material-storing box 2, for example, and the multiple that the quantity of the min-cutter 1 of each jack-up is 10, at every turn for example, by the quantity of the min-cutter 1 of jack-up identical with the quantity of jack 21 (, 50) at most.A jack 21 inserts a min-cutter 1, during use, material-storing box 2 is positioned over to described pusher box 3 tops so that thimble 32 inserts in described jack 21, and by min-cutter 1 from jack 21 jack-up so that min-cutter 1 insert in the accommodating hole of loading plate 4.This min-cutter 1 ejector utilizes thimble 32 in pusher box 3 by min-cutter 1 jack-up from the jack 21 of material-storing box 2, so that min-cutter 1 is taken out from material-storing box 2, and easily damage min-cutter 1 without applying compared with large active force on loading plate 4, and can prevent from causing because of artificial taking-up the accident of stabbing.

Referring to Fig. 2 to Fig. 5, further, described min-cutter 1 comprises the blade part 12 that inserts the shank portion 11 in described jack 21 and extend along described shank portion 11, this shank portion 11 also comprises handle of a knife 111 and connects the ring platform 112 of handle of a knife 111 and blade part 12, described thimble 32 comprises away from described chassis 31 and for supporting the support end 321 of described handle of a knife 111 ends, described blade part 12 is contained in described accommodating hole 43.Understandably, a jack 21 can insert the shank portion 11 of a min-cutter 1, the external diameter of described ring platform 112 is obviously greater than the external diameter of handle of a knife 111, described jack 21 is stepped hole, comprise the first hole of accommodating handle of a knife 111 and mutually connect the second hole with holding ring platform 112 with described the first hole, and the aperture in the second hole is obviously greater than the aperture in the first hole, the aperture in the first hole is a bit larger tham or equals the length that the external diameter of handle of a knife 111 and the hole depth in the first hole are greater than handle of a knife 111, the aperture in the second hole is a bit larger tham or equals to encircle the external diameter of platform 112 and the hole depth in the second hole equates with the height of ring platform 112, so that insert.During use, pusher box 3 and blade part 12 are positioned at the relative both sides of material-storing box 2, it is thimble 32 is supported shank portion 11 end along jack 21, particularly, the support end 321 of thimble 32 is inserted in described jack 21 and is supported the end of shank portion 11, alternatively, the height of thimble 32 and the length of handle are less than or equal to the hole depth (or thickness of material-storing box 2) of jack 21, so that shank portion 11 is from the interior rising certain altitude of described jack 21, this lifting height is less than or equal to the height of described ring platform 112, encircle platform 112 outstanding and shank portion 11 is contained in the first hole and part is contained in the second hole along described the second hole, like this, can to min-cutter 1, position and guarantee that min-cutter 1 is in erectility by the first hole, be convenient to loading plate 4 takes out min-cutter 1 from jack 21, and blade part 12 is placed in accommodating hole 43.

Please refer to Fig. 6 and Fig. 7, further, described accommodating hole 4 comprises the first accepting hole 431 of accommodating described blade part 12 and mutually connects with described the first accepting hole 431 and for the second accepting hole 432 of accommodating described ring platform 112, described loading plate 4 is also provided with and is positioned at the open slot 44 communicating on described guide pillar 42 and with described the second accepting hole 432.Understandably, described guide pillar 42 is outstanding towards material-storing box 2 along described upper flitch 41, and open slot 44 along the axial opening of guide pillar 42 towards material-storing box 2, when min-cutter 1 is headed in loading plate 4, blade part 12 is inserted in the first accepting hole 431 along the second accepting hole 432, and ring platform 112 is clamp-oned in the second accepting hole 432, and owing to having open slot 44, guide pillar 42 will encircle platform 112 along its radial dilatation and clamp.The aperture of the first accepting hole 431 is less than the aperture of the second accepting hole 432, so that ring platform 112 can be clamp-oned in the second accepting hole 432, and, the hole depth of the second accepting hole 432 is greater than or equal to 8.5mm, during material loading, thimble 32 supports the ring platform 112 of min-cutter 1 to the bottom of the second accepting hole 432, so that ring platform 112 is clamped by guide pillar 42.

Please refer to Fig. 2, further, described pusher box 3 also comprises along 31 edges, described chassis the outstanding protuberance 33 with 2 sidewalls of material-storing box described in double team, and described protuberance 33 and described chassis 31 are by one-body molded and make.Understandably, described protuberance 33 is outstanding or outstanding along each corner on described chassis 31 along each side on described chassis 31, and each described protuberance 33 and chassis 31 form the accommodation space 34 of accommodating described material-storing box 2.Take material-storing box 2, be cube structure as example, during use, material-storing box 2 is positioned on the chassis 31 of pusher box 3, material-storing box 2 parts are placed in described accommodation space 34 and 33 armfuls of protuberances are located at the sidewall of material-storing box 2, damage min-cutter 1 to prevent in use procedure material-storing box 2 to occur rocking on pusher box 3.

Please refer to Fig. 2 and Fig. 4, further, described thimble 32 and described chassis 31 are by one-body molded and make or described thimble 32 is fixedly installed on described chassis 31.During use, all thimbles 32 on pusher box 3 all can insert in jack 21, with the min-cutter 1 in jack-up corresponding jack 21, that is to say, when having inserted two row's min-cutters 1 in material-storing box 2, thimble 32 in pusher box 3 all inserts in jack 21, and the thimble 32 corresponding with this two rows min-cutter 1 can be by the min-cutter in corresponding jack 21 1 jack-up simultaneously; When the interior min-cutter 1 that all inserted of each jack 21 in material-storing box 2, thimble 32 will be simultaneously by all min-cutter 1 jack-up; And each min-cutter 1 is roughly the same by the height of jack-up, easy to use.In other embodiments, described thimble 32 is riveted joint, bonding or other non-dismountable connected modes with described chassis 31.Alternatively, described chassis 31 is provided with the fixing hole (not shown) for fixedly mounting described thimble 32, like this, by one end of thimble 32 being closely connected in fixing hole so that described thimble 32 be fixedly connected with chassis 31, more preferably, described thimble 32 is 5mm with the degree of depth that coordinates of described fixing hole, and the length on described thimble 32 outstanding described chassis 31 is greater than or equal to 9mm.

Please refer to Fig. 2 and Fig. 4, further, described pusher box 3 also comprises the top board that is fixedly installed on described chassis 31 and is provided with described thimble 32, and described thimble 32 and described top board are by one-body molded and make or described thimble is fixedly installed on described top board.Understandably, utilize bolt, screw, screw etc. that top board is fixedly installed on chassis 31, the mode that also can utilize buckle to connect is fixedly installed in top board on chassis 31, or other can be realized hard-wired mode and all can.Described top board can be between chassis 31 and material-storing box 2, also can be positioned at a side that deviates from material-storing box 2 on chassis 31, and chassis 31 is provided with the through hole passing for thimble 32.In other embodiments, described thimble 32 is riveted joint, bonding or other non-dismountable connected modes with described top board.Alternatively, described top board is provided with the fixing hole (not shown) for fixedly mounting described thimble 32, like this, by one end of thimble 32 being closely connected in fixing hole so that described thimble 32 be fixedly connected with top board, more preferably, described thimble 32 is 5mm with the degree of depth that coordinates of described fixing hole, and the length on described thimble 32 outstanding described chassis 31 is greater than or equal to 9mm.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims (10)

1. a min-cutter ejector, comprise the material-storing box that inserts min-cutter, it is characterized in that, also comprise with described material-storing box and being used in conjunction with by the pusher box of described min-cutter jack-up, described material-storing box is provided with multiple array settings and for inserting the jack of described min-cutter, described pusher box comprises chassis and multiple array setting and along the outstanding thimble in described chassis, described thimble inserts in described jack to support described min-cutter.

2. min-cutter ejector as claimed in claim 1, it is characterized in that, described min-cutter comprises the blade part that inserts the shank portion in described jack and extend along described shank portion, and described thimble comprises away from described chassis and for supporting the support end of described shank portion.

3. min-cutter ejector as claimed in claim 1, is characterized in that, described pusher box also comprises that described protuberance and described chassis are integrated along the outstanding protuberance with material-storing box sidewall described in double team of described chassis edge.

4. the min-cutter ejector as described in claims 1 to 3 any one, is characterized in that, described thimble and described chassis are that integrated or described thimble is fixedly installed on described chassis.

5. the min-cutter ejector as described in claims 1 to 3 any one, it is characterized in that, described pusher box also comprises the top board that is fixedly installed on described chassis and is provided with described thimble, and described thimble and described top board are that integrated or described thimble is fixedly installed on described top board.

6. a feeding device, be used for min-cutter being taken out and comprising the loading plate that the described min-cutter taking out is mounted to process equipment, it is characterized in that, described loading plate comprises flitch and multiple outstanding and be the guide pillar of array distribution along described upper flitch, and described loading plate is also provided with corresponding with described guide pillar and runs through the accommodating hole of described upper flitch and described guide pillar; Described feeding device also comprises and inserts the material-storing box of min-cutter and be used in conjunction with by the pusher box of described min-cutter jack-up with described material-storing box, described material-storing box is between described pusher box and described loading plate and be provided with multiple array settings and for inserting the jack of described min-cutter, described pusher box comprises chassis and multiple array setting and along the outstanding thimble in described chassis, described thimble inserts in described jack and supports described min-cutter so that described min-cutter inserts in described accommodating hole.

7. feeding device as claimed in claim 6, it is characterized in that, described min-cutter comprises the blade part that inserts the shank portion in described jack and extend along described shank portion, described shank portion comprises handle of a knife and the ring platform that is connected described handle of a knife and described blade part, and described thimble comprises away from described chassis and for supporting the support end of described handle of a knife end.

8. feeding device as claimed in claim 7, it is characterized in that, described accommodating hole comprises the first accepting hole of accommodating described blade part and mutually connects with described the first accepting hole and for the second accepting hole of accommodating described ring platform, described loading plate is also provided with and is positioned at the open slot communicating on described guide pillar and with described the second accepting hole.

9. feeding device as claimed in claim 6, is characterized in that, described pusher box also comprises along the outstanding protuberance with material-storing box sidewall described in double team of described chassis edge, and described protuberance and described chassis are by one-body molded and make.

10. the feeding device as described in claim 6 to 9 any one, is characterized in that, described thimble and described chassis are that integrated or described thimble is fixedly installed on described chassis; Or

Described pusher box also comprises the top board that is fixedly installed on described chassis and is provided with described thimble, and described thimble and described top board are integrated.

Images