CN204075237U

CN204075237U - Rabbeting machine automatic feeding

Info

Publication number: CN204075237U
Application number: CN201420424528.7U
Authority: CN
Inventors: 潘吕建
Original assignee: LINHAI CITY RAUL MACHINE Co Ltd
Current assignee: LINHAI CITY RAUL MACHINE Co Ltd
Priority date: 2014-07-30
Filing date: 2014-07-30
Publication date: 2015-01-07
Anticipated expiration: 2024-07-30

Abstract

Rabbeting machine automatic feeding, belongs to lens machining device technical field, comprises input mechanism, construct for handling and output mechanism; Described charging crane comprises double stroke cylinder, push rod, guide pin bushing fixed head, guide rod, sucker cross bar and Acetabula device; Described push rod one end is arranged at the output pushing cylinder, and the other end is fixedly installed on guide pin bushing fixed head; Described guide pin bushing fixed head arranges guide rail mechanism; One end of described guide pin bushing fixed head connecting sucker cross bar, the other end of sucker cross bar is provided with sucker fixed block; Described sucker fixed block establishes Acetabula device.Under the effect of double stroke cylinder, eyeglass unprocessed on input mechanism is transported to machining position by Acetabula device, and eyeglass complete for car limit is transported to output mechanism.This rabbeting machine automatic feeding, avoids the damage of eyeglass, improves machining eyeglass precision simultaneously, improves operating efficiency, reduces the production cost of product.

Description

Rabbeting machine automatic feeding

Technical field

The utility model belongs to lens machining device technical field, is specifically related to rabbeting machine automatic feeding.

Background technology

At present, the glasses-lens rabbeting machine that market is sold, its machining lens mode mostly is to be positioned between upper and lower chuck with manipulator gripping eyeglass and processes, the setting accuracy on work of eyeglass, entirely by position accuracy during manipulator placement eyeglass, therefore often affects eyeglass car limit precision because eyeglass placement location is inaccurate.Moreover the rabbeting machine on market all adopts the mode of artificial feeding to carry out handling eyeglass, so not only affects production efficiency and output, too increases the human cost of processing simultaneously.

Utility model content

The purpose of this utility model is to overcome the above-mentioned defect mentioned and deficiency, and provide a kind of rabbeting machine automatic feeding, accurately places eyeglass, save manpower simultaneously in order to conveying.

Rabbeting machine automatic feeding, comprises input mechanism, construct for handling and output mechanism; Described charging crane comprises double stroke cylinder, push rod, guide pin bushing fixed head, guide rod, sucker cross bar and Acetabula device; Described push rod one end is arranged at the output pushing cylinder, and the other end is fixedly installed on guide pin bushing fixed head; Described guide pin bushing fixed head arranges guide rail mechanism; One end of described guide pin bushing fixed head connecting sucker cross bar, the other end of sucker cross bar is provided with sucker fixed block; Described sucker fixed block establishes Acetabula device.Under the effect of double stroke cylinder, eyeglass unprocessed on input mechanism is transported to machining position by Acetabula device, and eyeglass complete for car limit is transported to output mechanism.

Described input mechanism comprises the first input belt group, the first conveying asynchronous machine, the second input belt group and the second input belt synchronous motor; Described first input belt group by one group of spaced setting and the parallel first input belt form, two ends are respectively arranged with the first active rotating shaft and the first passive rotating shaft; Described first active rotating shaft and first carries being connected of asynchronous machine; Described first conveying asynchronous machine is fixedly installed on input tape baffle plate; Described second input belt group by one group of spaced setting and the parallel second input belt form, two ends are respectively arranged with the second active rotating shaft and the second passive rotating shaft; Described second active rotating shaft and second inputs being connected of belt synchronous motor; Described first input belt group and the second input belt group be arranged in parallel, and the afterbody of described first input belt group and the second input belt group head arranged in a crossed manner; Described second passive rotating shaft is positioned at the second input belt group head, and the second passive rotating shaft is provided with elevating mechanism; Described first input belt group afterbody is provided with material blocking rod; Described material blocking rod is arranged on the output of material blocking rod cylinder.

Described elevating mechanism comprises slide block, slide plate, crane, nut and belt shaft lift cylinder; Described second passive rotating shaft is provided with belt pulley, and the second passive rotating shaft two ends are respectively through input tape baffle plate, slide block, slide plate, crane fixing with nut; Described slide plate is fixedly installed on input tape baffle plate, and slide plate is provided with sliding tray; Described slide block is arranged between input tape baffle plate and slide plate; Described crane is connected with belt shaft lift cylinder.

Described guide rail mechanism comprises the guide pin bushing of hollow and the guide rod through guide pin bushing; Described guide rod is fixed on guide rod fixed front plate, and the other end is fixed on the fixing rear plate of guide rod; After guide rod fixed front plate is fixing with guide rod, plate is fixedly connected with by guide rod fixed head pole; Supporting mechanism is provided with below described guide rod fixed head pole; Described supporting mechanism comprises gusset piece, support guide rod, support guide pin bushing, supports air cylinder fixed plate and support cylinder; Described support guide rod is fixedly installed on below guide rod fixed head pole; Described support air cylinder fixed plate is connected with support guide rod by supporting guide pin bushing; Described support cylinder is fixed on support air cylinder fixed plate.

Described guide pin bushing fixed head is rotationally connected by one end of bearing and sucker cross bar; Described sucker cross bar is connected with transfer; Described transfer comprises gear, tooth bar and rotary cylinder; Described gear is fixedly installed on sucker cross bar; Described rack and pinion is connected with a joggle; The output of described cylinder is fixedly connected with tooth bar by rotary cylinder contiguous block; Described cylinder is fixedly installed on guide pin bushing fixed head by rotary cylinder fixed block.

Described Acetabula device comprises the first sucker, vacuum adapter, the first sucker pole fixed block, the first sucker pole, anti-sway lever, the second sucker and the second sucker pole; Described sucker fixed block is provided with the first sucker pole and the second sucker pole; Described first sucker pole connects the first sucker pole fixed block; Anti-sway lever is provided with between described first sucker pole fixed block and sucker fixed block; Described first sucker pole fixed block connects the first sucker by vacuum adapter; Described second sucker pole connects the second sucker.

Described output mechanism comprises output band, exports active rotating shaft, exports passive rotating shaft and export asynchronous machine; Described output active rotating shaft and the passive rotating shaft of output are arranged at respectively and export band two ends; Described output active rotating shaft is connected with the output exporting asynchronous machine; Described output band both sides are provided with and export band baffle plate.

The utility model has following beneficial effect:

1. this rabbeting machine automatic feeding, delivers to car limit station by eyeglass, eliminate manipulator gripping workpiece, avoid the damage of eyeglass, improve machining eyeglass precision simultaneously;

2. this rabbeting machine automatic feeding, is integrated with feeding function and feeding function, is wholely set, automaticity is high, eliminates the operation that this road of artificial workpiece loading and unloading is loaded down with trivial details, saves the time of material handling, improve operating efficiency, reduce the production cost of product;

3. this rabbeting machine automatic feeding, while feeding, takes out the eyeglass just finished product on car limit, saves operation, accelerate handling paces, enhance productivity.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model;

Fig. 2 is plan structure schematic diagram of the present utility model;

Fig. 3 is forward sight structural representation of the present utility model;

Fig. 4 is the half sectional view of the second passive rotating shaft;

Fig. 5 is the structural representation of the utility model Acetabula device;

Fig. 6 is the structural representation of the passive rotating shaft elevating mechanism of the utility model second;

In figure: input tape baffle plate 101, first passive rotating shaft 102, first input belt group 103, second passive rotating shaft 104, first active rotating shaft 105, material blocking rod 106, second input belt group 107, second active rotating shaft 108, second input belt synchronous motor 109, first conveying asynchronous machine 110, nut 111, slide plate 112, crane 113, material blocking rod cylinder 114, belt shaft lift cylinder 115, slide block 116, double stroke cylinder 201, push air cylinder fixed plate 202, plate 203 after guide rod is fixing, push rod 204, guide rod 205, guide rod fixed head pole 206, support cylinder 207, guide pin bushing 208, guide pin bushing fixed head 209, bearing 210, guide rod fixed front plate 211, tooth bar 212, gear 213, rotary cylinder contiguous block 214, cylinder 215, rotary cylinder fixed block 216, sucker cross bar 217, sucker fixed block 218, first sucker 219, vacuum adapter 220, first sucker pole fixed block 221, first sucker pole 222, anti-sway lever 223, second sucker 224, second sucker pole 225, support guide pin bushing 226, support guide rod 227, gusset piece 228, support air cylinder fixed plate 229, export band 301, export band baffle plate 302, export asynchronous machine 303.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Rabbeting machine automatic feeding, comprises input mechanism, construct for handling and output mechanism.

Described input mechanism comprises the first input belt group 103, first and carries asynchronous machine 110, second to input belt group 107 and the second input belt synchronous motor 109.

As shown in Figure 1, Figure 2 and Figure 3, described first input belt group 103 by one group of spaced setting and the parallel first input belt form, two ends are respectively arranged with the first active rotating shaft 105 and the first passive rotating shaft 102, first active rotating shaft 105 and first carries asynchronous machine 110 to be connected.Described first conveying asynchronous machine 110 is fixedly installed on input tape baffle plate 101.First conveying asynchronous machine 110 action, drives the first active rotating shaft 105 to rotate, thus the first input belt group 103 is worked.

Described second input belt group 107 by one group of spaced setting and the parallel second input belt form, two ends are respectively arranged with the second active rotating shaft 108 and the second passive rotating shaft 104, second active rotating shaft 108 and second inputs being connected of belt synchronous motor 109.Described second input belt synchronous motor 109 is fixedly installed on input tape baffle plate 101.Second input belt synchronous motor 109 action, drives the second active rotating shaft 108 to rotate, thus the second input belt group 107 is worked.

Described first input belt group 103 and the second input belt group 107 be arranged in parallel, and the afterbody of described first input belt group 103 and the second input belt group 107 head arranged in a crossed manner.Described second passive rotating shaft 104 is positioned at the second input belt group 107 head, and the second passive rotating shaft 104 is provided with elevating mechanism.Concrete, as shown in Figure 1 and Figure 4, described elevating mechanism comprises slide block 116, slide plate 112, crane 113, nut 111 and belt shaft lift cylinder 115.Described second passive rotating shaft 104 is provided with belt pulley, and the second passive rotating shaft 104 two ends are also fixed with nut 111 through input tape baffle plate 101, slide block 116, slide plate 112, crane 113 respectively.Described slide plate 112 is fixedly installed on input tape baffle plate 101, and slide plate 112 is provided with sliding tray.Described slide block 116 is arranged between input tape baffle plate 101 and slide plate 112, makes the second passive rotating shaft 104 can along the sliding tray action of slide plate 112.Described crane 113 is connected with belt shaft lift cylinder 115.Described belt shaft lift cylinder 115 promotes crane 113 reciprocating action, thus drives the second passive rotating shaft 104 to be elevated.Now, the second passive rotating shaft 104 is along the sliding tray lifting on slide plate 112, and slide block 116 is along the track action on slide plate 112.

Described first input belt group 103 afterbody is provided with material blocking rod 106.Described material blocking rod 106 is arranged on the output of material blocking rod cylinder 114.Material blocking rod cylinder 114 drives material blocking rod 106 to make lifting action.

The working method of input mechanism is: the first conveying asynchronous machine 110 works, thus makes the first input belt group 103 transport eyeglass, and the eyeglass of the first input belt group 103 afterbody is by under material blocking rod 106 grades.Then material blocking rod cylinder 114 drives material blocking rod 106 to decline, belt shaft lift cylinder 115 drives the second passive rotating shaft 104 to rise, the head of the second input belt group 107 inputs belt group 103 afterbody higher than first, eyeglass forwards transportation under the second input belt group 107 action of the second input belt group 107 head.Because the second passive rotating shaft 104 and the spacing of material blocking rod 106 are approximately the diameter of an eyeglass, therefore the quantity that the second input belt group 107 transports eyeglass once only increases by one.Second input belt synchronous motor 109 works, and the second input belt group 107 is at the uniform velocity transported eyeglass and locates.

Material blocking rod cylinder 114 drives material blocking rod 106 to rise, and belt shaft lift cylinder 115 drives the second passive rotating shaft 104 to decline.The eyeglass of the first input belt group 103 afterbody is by under material blocking rod 106 grades.Then material blocking rod 106 declines, and the second passive rotating shaft 104 is risen, and the second input belt group 107 transports lower a slice eyeglass.Circulate successively.Until each station has an eyeglass in the second passive rotating shaft 104, take for charging crane.

Described charging crane comprises double stroke cylinder 201, push rod 204, guide pin bushing fixed head 209, guide rod 205, sucker cross bar 217 and Acetabula device.

Described double stroke cylinder 201 is fixed on the fixing rear plate 203 of guide rod by pushing air cylinder fixed plate 202.Described push rod 204 one end is arranged at the output of double stroke cylinder 201, and the other end is fixedly installed on guide pin bushing fixed head 209.Described guide pin bushing fixed head 209 arranges guide rail mechanism.Described guide rail mechanism comprises the guide pin bushing 208 of hollow and the guide rod 205 through guide pin bushing 208.Guide rod fixed front plate 211 is fixed in described guide rod 205 one end, and the other end is fixed on the fixing rear plate 203 of guide rod.After guide rod fixed front plate 211 is fixing with guide rod, plate 203 is fixedly connected with by guide rod fixed head pole 206.Guide pin bushing 208 slides at guide rod 205, defines the movement locus of guide pin bushing fixed head 209.Double stroke cylinder 201 drives push rod 204 reciprocating action, thus drives the reciprocating action of guide pin bushing fixed head 209.

Supporting mechanism is provided with below described guide rod fixed head pole 206.Described supporting mechanism, in order to control the lifting of charging crane, comprises gusset piece 228, support guide rod 227, supports guide pin bushing 226, supports air cylinder fixed plate 229 and support cylinder 207.Described support guide rod 227 is fixedly installed on below guide rod fixed head pole 206.Described support air cylinder fixed plate 229 is connected with support guide rod 227 by supporting guide pin bushing 226.Described support cylinder 207 is fixed on and supports air cylinder fixed plate 229.Connect the piston rod supporting cylinder 207 in the middle part of described gusset piece 228, guide rod fixed head pole 206 is fixed at two ends.Supporting cylinder 207 action, finally making Acetabula device knee-action by driving gusset piece 228.

Described guide pin bushing fixed head 209 is rotationally connected by bearing 210 one end with sucker cross bar 217, and the other end of sucker cross bar 217 is provided with sucker fixed block 218.

Described sucker cross bar 217 is connected with transfer.Concrete, as shown in figures 1 and 3, described transfer comprises gear 213, tooth bar 212 and cylinder 215.Described gear 213 is fixedly installed on sucker cross bar 217.Described tooth bar 212 is connected with a joggle with gear 213.The output of described cylinder 215 is fixedly connected with tooth bar 212 by rotary cylinder contiguous block 214.Described cylinder 215 is fixedly installed on guide pin bushing fixed head 209 by rotary cylinder fixed block 216.Cylinder 215 action, band carry-over bar 212 moves back and forth, thus gear 213 and sucker cross bar 217 are rotated back and forth.

Described sucker fixed block 218 establishes Acetabula device.Concrete, described Acetabula device comprises the first sucker 219, vacuum adapter 220, first sucker pole fixed block 221, first sucker pole 222, anti-sway lever 223, second sucker 224 and the second sucker pole 225.Described sucker fixed block 218 is provided with the first sucker pole 222 and the second sucker pole 225.Described first sucker pole 222 connects the first sucker pole fixed block 221.Anti-sway lever 223 is provided with between described first sucker pole fixed block 221 and sucker fixed block 218.Described first sucker pole fixed block 221 connects the first sucker 219 by vacuum adapter 220.Described second sucker pole 225 connects the second sucker 224.

During charging crane work, the first sucker 219 holds the eyeglass be placed in the second input belt group 107, then, double stroke cylinder 201 action, push rod 204 outwards promotes guide pin bushing fixed head 209 and Acetabula device, simultaneously, cylinder 215 action, Acetabula device rotates, and the second sucker 224 is in below.During the second sucker 224 to lathe tool station, hold the complete eyeglass of turning just finished product.Then cylinder 215 action, Acetabula device rotates, and the first sucker 219 is in below, and the eyeglass of non-turning is positioned over lathe tool station.Double stroke cylinder 201 action, push rod 204 inwardly pulls guide pin bushing fixed head 209 and Acetabula device, and meanwhile, cylinder 215 action, Acetabula device rotates, and the second sucker 224 is in below.During the second sucker 224 to output mechanism, unload eyeglass just finished product.Finally, cylinder 215 action, Acetabula device rotates, and the first sucker 219 is in below and under the effect of double stroke cylinder 201, returns to the second input belt group 107 and hold next organizes the eyeglass needing processing, circulates successively.

This device is provided with two suckers, and in the flow process once pushed, realize the placement of undressed eyeglass and fetching of the first finished product of eyeglass, decrease operation, the feeding speed of quickening, improves efficiency.If it should be noted that, Acetabula device installs a sucker, by the reciprocating motion of twice, still can realize the placement of undressed eyeglass and fetching of the first finished product of eyeglass, this kind of mode can be considered as the alternative of the technical program.

Described output mechanism comprises output band 301, exports active rotating shaft, exports passive rotating shaft and export asynchronous machine 303.Described output active rotating shaft and the passive rotating shaft of output are arranged at respectively and export band 301 two ends, and described output active rotating shaft is connected with the output exporting asynchronous machine 303.Described output band 301 both sides are provided with and export band baffle plate 302.Exporting asynchronous machine 303 drives output active rotating shaft to rotate, thus output band 301 is worked, in order to transport eyeglass just finished product.

Operation principle: eyeglass to be processed under the first conveying asynchronous machine 110 drives, be transported to the first input belt group 103 by the first input belt group 103 and the second input belt group 107 overlapping to material blocking rod 106.Backgauge cylinder 114 action makes material blocking rod 106 decline.Under the action of belt shaft lift cylinder 115, the second passive rotating shaft 104 is risen, the portion making the head and first of the second input belt group 107 input belt group 103 from.The second input belt group 107 and the eyeglass on it is driven to move to corresponding operating position by the second input belt synchronous motor 109 again.In the process of eyeglass movement, the second passive rotating shaft 104 declines, and simultaneously the first input belt group 103 works, and lower a slice eyeglass to be processed reaches the first input belt group 103 and the second input overlapping place of belt group 107.By that analogy, after all completing when four times, four pieces of eyeglasses all in required position, namely immediately below Acetabula device on position.

Now, support cylinder 207 action, the first sucker 219 presses down suction vacuum and is held by eyeglass, and support cylinder 207 and reset, the first sucker 219 holds eyeglass lifting.By double stroke cylinder 201, eyeglass is pushed to car limit station again.Meanwhile, cylinder 215 action, Acetabula device rotates, and the second sucker 224 rotates to be waited for towards upper/lower positions.After machining lens completes, support cylinder 207 action, the second sucker 224 presses down suction vacuum and is held by first for eyeglass finished product, and support cylinder 207 and reset, the second sucker 224 holds eyeglass lifting.Cylinder 215 action, Acetabula device rotates, and the first sucker 219 rotates to towards upper/lower positions and eyeglass to be processed is put down processing.Double stroke cylinder 201 action, Acetabula device is return, simultaneously cylinder 215 action, and Acetabula device rotates, and the second sucker rotates to towards upper/lower positions and is placed on by first for eyeglass finished product and exports on band 301.Export band 301 work under the drive exporting asynchronous machine 303 and first for eyeglass finished product is transported away.Under the effect of double stroke cylinder 201, Acetabula device returns to above the second input belt group 107, cylinder 215 action, and Acetabula device rotates, and the first sucker 219 rotates to towards upper/lower positions to draw four pieces of other eyeglasses to be processed.Like this, the input of a set of eyeglass to be processed and the output procedure of the first finished product of eyeglass complete.Follow-up eyeglass course of conveying is reciprocal according to this, repeats no more.

The self-feeding process of this device completes in eyeglass car crack approach, and not free is accumulative, thus eliminate the time of required cost in a process, improves production efficiency.

The utility model is illustrated according to embodiment, and under the prerequisite not departing from present principles, this device can also make some distortion and improvement.Such as, in automatic loading and unloading lens device, belt pulley mode also can be adopted to complete spinning movement, in the conveyer belt kind of drive, also can adopt additive method execution etc. simultaneously.It should be pointed out that and all drop on the technical scheme that all employings are equal to replacement or the mode such as equivalent transformation and obtain in protection domain of the present utility model.

Claims

1. rabbeting machine automatic feeding, is characterized in that, comprises input mechanism, construct for handling and output mechanism; Described charging crane comprises double stroke cylinder (201), push rod (204), guide pin bushing fixed head (209), guide rod (205), sucker cross bar (217) and Acetabula device; Described push rod (204) one end is arranged at the output pushing cylinder (201), and the other end is fixedly installed on guide pin bushing fixed head (209); Described guide pin bushing fixed head (209) arranges guide rail mechanism; One end of described guide pin bushing fixed head (209) connecting sucker cross bar (217), the other end of sucker cross bar (217) is provided with sucker fixed block (218); Described sucker fixed block (218) establishes Acetabula device.

2. rabbeting machine automatic feeding as claimed in claim 1, it is characterized in that, described input mechanism comprises the first input belt group (103), the first conveying asynchronous machine (110), the second input belt group (107) and the second input belt synchronous motor (109); Described first input belt group (103) by one group of spaced setting and parallel first input belt form, two ends are respectively arranged with the first active rotating shaft (105) and the first passive rotating shaft (102); Described first active rotating shaft (105) and first carries being connected of asynchronous machine (110); Described first conveying asynchronous machine (110) is fixedly installed on input tape baffle plate (101); Described second input belt group (107) by one group of spaced setting and parallel second input belt form, two ends are respectively arranged with the second active rotating shaft (108) and the second passive rotating shaft (104); Described second active rotating shaft (108) and second inputs being connected of belt synchronous motor (109); Described first input belt group (103) and the second input belt group (107) be arranged in parallel, and the afterbody and second of described first input belt group (103) to input belt group (107) head arranged in a crossed manner; Described second passive rotating shaft (104) is positioned at the second input belt group (107) head, and the second passive rotating shaft (104) is provided with elevating mechanism; Described first input belt group (103) afterbody is provided with material blocking rod (106); Described material blocking rod (106) is arranged on the output of material blocking rod cylinder (114).

3. rabbeting machine automatic feeding as claimed in claim 2, it is characterized in that, described elevating mechanism comprises slide block (116), slide plate (112), crane (113), nut (111) and belt shaft lift cylinder (115); Described second passive rotating shaft (104) is provided with belt pulley, and the second passive rotating shaft (104) two ends are respectively through input tape baffle plate (101), slide block (116), slide plate (112), crane (113) fixing with nut (111); Described slide plate (112) is fixedly installed on input tape baffle plate (101), and slide plate (112) is provided with sliding tray; Described slide block (116) is arranged between input tape baffle plate (101) and slide plate (112); Described crane (113) is connected with belt shaft lift cylinder (115).

4. rabbeting machine automatic feeding as claimed in claim 1, is characterized in that, described guide rail mechanism comprises the guide pin bushing (208) of hollow and the guide rod (205) through guide pin bushing (208); Guide rod fixed front plate (211) is fixed in described guide rod (205) one end, and the other end is fixed on the fixing rear plate (203) of guide rod; After guide rod fixed front plate (211) is fixing with guide rod, plate (203) is fixedly connected with by guide rod fixed head pole (206); Described guide rod fixed head pole (206) below is provided with supporting mechanism; Described supporting mechanism comprises gusset piece (228), support guide rod (227), supports guide pin bushing (226), supports air cylinder fixed plate (229) and support cylinder (207); Described support guide rod (227) is fixedly installed on guide rod fixed head pole (206) below; Described support air cylinder fixed plate (229) is connected with support guide rod (227) by supporting guide pin bushing (226); Described support cylinder (207) is fixed on and is supported air cylinder fixed plate (229).

5. rabbeting machine automatic feeding as claimed in claim 1, is characterized in that, described guide pin bushing fixed head (209) is rotationally connected by bearing (210) one end with sucker cross bar (217); Described sucker cross bar (217) is connected with transfer; Described transfer comprises gear (213), tooth bar (212) and rotary cylinder (215); Described gear (213) is fixedly installed on sucker cross bar (217); Described tooth bar (212) and gear (213) are connected with a joggle; The output of described cylinder (215) is fixedly connected with tooth bar (212) by rotary cylinder contiguous block (214); Described cylinder (215) is fixedly installed on guide pin bushing fixed head (209) by rotary cylinder fixed block (216).

6. rabbeting machine automatic feeding as claimed in claim 1, it is characterized in that, described Acetabula device comprises the first sucker (219), vacuum adapter (220), the first sucker pole fixed block (221), the first sucker pole (222), anti-sway lever (223), the second sucker (224) and the second sucker pole (225); Described sucker fixed block (218) is provided with the first sucker pole (222) and the second sucker pole (225); Described first sucker pole (222) connects the first sucker pole fixed block (221); Anti-sway lever (223) is provided with between described first sucker pole fixed block (221) and sucker fixed block (218); Described first sucker pole fixed block (221) connects the first sucker (219) by vacuum adapter (220); Described second sucker pole (225) connects the second sucker (224).

7. rabbeting machine automatic feeding as claimed in claim 1, is characterized in that, described output mechanism comprises output band (301), exports active rotating shaft, exports passive rotating shaft and export asynchronous machine (303); Described output active rotating shaft and the passive rotating shaft of output are arranged at respectively and export band (301) two ends; Described output active rotating shaft is connected with the output exporting asynchronous machine (303); Described output band (301) both sides are provided with and export band baffle plate (302).