CN102998715B - Air-conditioner air outlet mistakes and omissions dress pick-up unit - Google Patents

Abstract

A kind of air-conditioner air outlet mistakes and omissions dress pick-up unit, it comprises base plate (1), locating piece (2) and control box (3), described locating piece (2) upper end is provided with the projection (4) for being socketed air-conditioner air outlet lower end, and protruding (4) are provided with air door testing agency (5), described base plate (1) is provided with horizontal blade testing agency (6), vertical vane testing agency (7), crank testing agency (8) and three component detection mechanisms (9), described horizontal blade testing agency (6), vertical vane testing agency (7), crank testing agency (8) and three component detection mechanisms (9) are distributed in the periphery of locating piece (2), described control box (3) is provided with mistakes and omissions display lamp (10) and finished product display lamp (11), described above-mentioned each testing agency is all connected with control box (3), compared with prior art, the present invention have screening accuracy rate higher, screening effeciency is higher and screen lower-cost feature.

Description

Air-conditioner air outlet mistakes and omissions dress pick-up unit

Technical field

The invention belongs to vehicle body fittings checkout equipment field, particularly relate to a kind of for vehicle air conditioning air outlet mistakes and omissions dress pick-up unit.

Background technology

At present, air-conditioner air outlet after assembling all needs the detection through workman, check the thumb wheel of air-conditioner air outlet, air door, connecting rod, crank, panel, horizontal blade or vertical vane are with or without the situation of misloading or neglected loading, if there is the air-conditioner air outlet of the situation of misloading or neglected loading to be substandard product, the detection of the air-conditioner air outlet of prior art is all judged by workman's visual inspection, and due to thumb wheel, air door, connecting rod, crank, panel, the parts such as horizontal blade and vertical vane are all relatively little, easily visual fatigue is there is in workman when long-time detection, and the air-conditioner air outlet of the situation of misloading or neglected loading cannot be filtered out accurately, the particularly misloading of horizontal blade and vertical vane or neglected loading situation, because horizontal blade and vertical vane are all made up of multiple blade, be easier to occur misloading or neglected loading situation and be not easily found, the efficiency simultaneously detected by artificial naked eyes is lower, and then limits the production efficiency of enterprise's every day, cannot significantly enterprise production capacity, and promotes production capacity and then need more to detect work, and cost of labor also increases thereupon, and then causes the production cost of enterprise also to increase.Therefore prior art detects the problem that air-conditioner air outlet existence screening accuracy rate is lower, screening effeciency is lower and screening cost is higher.

Summary of the invention

The present invention is directed to above problem and provide that a kind of screening accuracy rate is higher, screening effeciency is higher and screen lower-cost air-conditioner air outlet mistakes and omissions dress pick-up unit.

The present invention overcomes the above problems technical scheme used: provide a kind of air-conditioner air outlet mistakes and omissions dress pick-up unit with following structure, it comprises base plate, locating piece and control box, described locating piece and control box are all fixed on base plate, described locating piece upper end is provided with the projection for being socketed air-conditioner air outlet lower end, and projection is provided with air door testing agency, described base plate is provided with horizontal blade testing agency, vertical vane testing agency, crank testing agency and three component detection mechanisms, described horizontal blade testing agency, vertical vane testing agency, crank testing agency and three component detection mechanisms are distributed in the periphery of locating piece, described control box is provided with mistakes and omissions display lamp and finished product display lamp, described above-mentioned each testing agency is all connected with control box.

After adopting above structure, compared with prior art, the present invention is owing to detecting the assembling situation of the corresponding parts of air-conditioner air outlet by arranging each testing agency, after in the projection then lower end of air-conditioner air outlet after assembling being socketed in locating piece, control box controls each testing agency and starts working subsequently, detect each self-corresponding parts with or without misloading or neglected loading, if any misloading or neglected loading situation, mistakes and omissions display lamp on control box will light, as there is no misloading or neglected loading situation, finished product display lamp on control box, therefore workman only need can learn the assembling situation of detected air-conditioner air outlet according to the display lamp on control box, misloading or neglected loading situation whether is had without the need to observing each parts of air-conditioner air outlet successively by naked eyes again, also just not easily there is visual fatigue situation, efficiency and the accuracy of detection are higher, recall rate is more than 96%, a playscript with stage directions invention honest jump amount is more than 5 times of single workman's workload simultaneously, can the production capacity of significantly enterprise, and cost of labor expenditure is lower, and then reduce the production cost of enterprise.Therefore the present invention have screening accuracy rate higher, screening effeciency is higher and screen lower-cost feature.

As improvement, described base plate is provided with the clamp system for clamping air-conditioner air outlet, described clamp system is positioned at the left and right sides of locating piece, clamp system comprises left clamp, left clamping cylinder, right clamp and right clamping cylinder, described left clamping cylinder is fixed on the base plate on the left of locating piece, and the piston rod of left clamping cylinder is connected with left clamp, on the base plate of described right clamping cylinder on the right side of locating piece, and the piston rod of right clamping cylinder is connected with right clamp, after being then provided with clamp system, when each testing agency is worked, the stability of air-conditioner air outlet on locating piece is better, and then the accuracy rate making each testing agency detect is better, almost can reach 100%, therefore screening accuracy rate of the present invention can be made to improve further.

As further improvement, described vertical vane testing agency is positioned on the base plate in locating piece front, described vertical vane testing agency comprises the first detection block and the first cylinder, the first described cylinder is fixed on the base plate in locating piece front, and the piston rod of the first cylinder and first detects block is connected, described first detects block between locating piece and the first cylinder, described first detects block is provided with the quantity step through-hole identical with vertical vane quantity, in described step through-hole, the aperture of nearly locating piece part is less than the aperture away from locating piece part, contact pilotage is slidably connected in described step through-hole, described first one end detecting nearly first cylinder of block is provided with the first fiber sensor, the first described fiber sensor is provided with and contact pilotage inductive probe one to one, described contact pilotage one end is positioned at the outside of step through-hole, the contact pilotage other end is arranged in step through-hole, and leave gap between the contact pilotage other end and inductive probe, described contact pilotage is provided with spacing ring, described spacing ring is arranged in step through-hole and fits with the step surface of step through-hole, back-moving spring is provided with between described spacing ring and the first fiber sensor, described inductive probe is all connected with control box, the then vertical vane testing agency of this structure, promote first at the first cylinder and detect block motion, make the end of contact pilotage end thereof contacts vertical vane, block continuation motion is detected along with the first cylinder promotes first, the other end of contact pilotage slides to the first fiber sensor, until the contact pilotage other end contacts with corresponding inductive probe, now inductive probe by information feed back to control box, if there is the vertical vane neglected loading of or more, then one end of contact pilotage will be inserted in corresponding mounting hole, the other end of contact pilotage cannot be contacted with corresponding inductive probe, from the object reaching detection, and this structure is relatively simple, and sensitivity is higher, and then make preparation cost of the present invention lower, and accuracy is better.

As improving further again, described horizontal blade testing agency is positioned on the base plate on the right side of locating piece, described horizontal blade testing agency comprises the second detection block and the second cylinder, the second described cylinder is fixed on the base plate on the right side of locating piece, and the piston rod of the second cylinder and second detects block is connected, described second detects block between locating piece and the second cylinder, the second described detection block is also provided with the quantity step through-hole identical with vertical vane quantity, in described step through-hole, the aperture of nearly locating piece part is less than the aperture away from locating piece part, contact pilotage is slidably connected in described step through-hole, described and the one end detecting nearly second cylinder of block is provided with the second fiber sensor, the second described fiber sensor is provided with and contact pilotage inductive probe one to one, described contact pilotage one end is positioned at the outside of step through-hole, the contact pilotage other end is arranged in step through-hole, and leave gap between the contact pilotage other end and inductive probe, described contact pilotage is provided with spacing ring, described spacing ring is arranged in step through-hole and fits with the step surface of step through-hole, back-moving spring is provided with between described spacing ring and the second fiber sensor, described inductive probe is all connected with control box, the principle of horizontal blade testing agency is identical with vertical vane testing agency with structure, therefore preparation cost of the present invention can be reduced further, and ensure that accuracy is better.

As improving further, the second described cylinder is positioned at directly over right clamping cylinder again, then make structure of the present invention compacter, shared space is less, is convenient to transport of the present invention and storage.

As improving further again, described projection is located at groove, described air door testing agency is positioned at the bottom of groove, described air door testing agency is infrared probe, described infrared probe is connected with control box, the air door testing agency be then arranged in groove can not be encountered by air-conditioner air outlet with during protruding socket at air-conditioner air outlet, and collateral security air door testing agency is not easily damaged and sensitivity is also better; And due to infrared probe be the routine techniques of commercially available maturation, therefore cost is lower.

As improving further again, three described component detection mechanisms are positioned on the base plate at locating piece rear, three described component detection mechanisms comprise support, described support is fixed on the base plate at locating piece rear, and support is provided with panel detection head from top to bottom successively, thumb wheel detection head and connecting rod detection head, described panel detection head, thumb wheel detection head and connecting rod detection head are infrared probe, described infrared probe is connected with control box, then by panel detection head, thumb wheel detection head and connecting rod detection head concentrate on after on a support, make one-piece construction of the present invention compacter, space availability ratio is better, raw-material use amount when can reduce preparation, and then reduction preparation cost.

As improving further again, on the base plate of described crank testing agency between three component detection mechanisms and horizontal blade testing agency, described crank testing agency comprises fixed bar, described fixed bar is provided with crank detection head, described crank detection head is infrared probe, described infrared probe is connected with control box, then three component detection mechanisms and just in time corresponding air-conditioner air outlet crank medium position between horizontal blade testing agency, which kind of state is in without appointing crank, the crank at this position all can not move, therefore the detection accuracy of infrared probe can be improved, ensure the accuracy rate detected, and due to infrared probe be the routine techniques of commercially available maturation, therefore can equipment cost be reduced.

As further improving, described control box is provided with neglected loading display lamp, described neglected loading display lamp comprises crank display lamp, connecting rod display lamp, air door display lamp, thumb wheel display lamp, Display panel lamp, vertical vane display lamp and horizontal blade display lamp, described crank display lamp, connecting rod display lamp, air door display lamp, thumb wheel display lamp, Display panel lamp, vertical vane display lamp and horizontal blade display lamp respectively with each testing agency one_to_one corresponding, inductive probe one_to_one corresponding on described vertical vane display lamp and the first fiber sensor, described horizontal blade display lamp and the inductive probe one_to_one corresponding of the second fiber sensor, then owing to being provided with each testing agency display lamp one to one, in testing process, if when the testing agency of correspondence detects misloading or neglected loading, can react at display lamp intuitively, which parts what make workman can learn detected air-conditioner air outlet misloading or neglected loading is, and then facilitate workman to the classification of substandard product, also remedying of operation is remedied in convenient rear road simultaneously, thus make high practicality of the present invention stronger.

Accompanying drawing explanation

Fig. 1 is the structural representation of air-conditioner air outlet mistakes and omissions of the present invention dress pick-up unit.

Fig. 2 is the vertical view of Fig. 1.

Fig. 3 is the structural representation that air-conditioner air outlet mistakes and omissions of the present invention dress pick-up unit first detects block.

Fig. 4 is the structural representation after air-conditioner air outlet mistakes and omissions of the present invention dress pick-up unit socket air-conditioner air outlet.

As shown in the figure: 1, base plate, 2, fixed block, 3, control box, 4, projection, 5, air door testing agency, 6, horizontal blade testing agency, 7, vertical vane testing agency, 8, crank testing agency, 9, three component detection mechanisms, 10, mistakes and omissions display lamp, 11, finished product display lamp, 12, left clamp, 13, left clamping cylinder, 14, right clamp, 15, right clamping cylinder, 16, first detects block, 17, first cylinder, 18, step through-hole, 19, contact pilotage, 20, first fiber sensor, 21, inductive probe, 22, spacing ring, 23, back-moving spring, 24, second detects block, 25, second cylinder, 26, second fiber sensor, 27, groove, 28, support, 29, panel detection head, 30, thumb wheel detection head, 31, connecting rod detection head, 32, fixed bar, 33, crank detection head, 34, crank display lamp, 35, connecting rod display lamp, 36, air door display lamp, 37, thumb wheel display lamp, 38, Display panel lamp, 39, vertical vane display lamp, 40, horizontal blade display lamp.

Embodiment

Below in conjunction with the drawings and specific embodiments, the present invention is described further.

As Fig. 1, Fig. 2, a kind of air-conditioner air outlet mistakes and omissions shown in Fig. 3 and Fig. 4 (the connection wire of attached each testing agency not shown in FIG. and control box) fill pick-up unit, it comprises base plate 1, locating piece 2 and control box 3, described locating piece 2 and control box 3 are all fixed on base plate 1, described locating piece 2 upper end is provided with the projection 4 for being socketed air-conditioner air outlet lower end, and protruding 4 are provided with air door testing agency 5, described base plate 1 is provided with horizontal blade testing agency 6, vertical vane testing agency 7, crank testing agency 8 and three component detection mechanisms 9, described horizontal blade testing agency 6, vertical vane testing agency 7, crank testing agency 8 and three component detection mechanisms 9 are distributed in the periphery of locating piece 2, described control box 3 is provided with mistakes and omissions display lamp 10 and finished product display lamp 11, described above-mentioned each testing agency is all connected with control box 3, the parts of the routines such as control chip are provided with in certain control box 3, due to be existing general technology just do not know to repeat at this.

Described base plate 1 is provided with the clamp system for clamping air-conditioner air outlet, described clamp system is positioned at the left and right sides of locating piece 2, clamp system comprises left clamp 12, left clamping cylinder 13, right clamp 14 and right clamping cylinder 15, described left clamping cylinder 13 is fixed on the base plate 1 on the left of locating piece 2, and the piston rod of left clamping cylinder 13 is connected with left clamp 12, on the base plate 1 of described right clamping cylinder 15 on the right side of locating piece 2, and the piston rod of right clamping cylinder 15 is connected with right clamp 14.

As shown in Figure 3, described vertical vane testing agency 7 is positioned on the base plate 1 in locating piece 2 front, described vertical vane testing agency 7 comprises the first detection block 16 and the first cylinder 17, the first described cylinder 17 is fixed on the base plate 1 in locating piece 2 front, and the piston rod of the first cylinder 17 and first detects block 16 is connected, described first detects block 16 between locating piece 2 and the first cylinder 17, described first detects block 16 is provided with the quantity step through-hole identical with vertical vane quantity 18, in described step through-hole 18, the aperture of nearly locating piece 2 part is less than the aperture away from locating piece 2 part, contact pilotage 19 is slidably connected in described step through-hole 18, described first one end detecting nearly first cylinder 17 of block 16 is provided with the first fiber sensor 20, the first described fiber sensor 20 is provided with and contact pilotage 19 inductive probe 21 one to one, described contact pilotage 19 one end is positioned at the outside of step through-hole 18, contact pilotage 19 other end is arranged in step through-hole 18, and leave gap between contact pilotage 19 other end and inductive probe 21, described contact pilotage 19 is provided with spacing ring 22, described spacing ring 22 is arranged in step through-hole 18 and fits with the step surface of step through-hole 18, back-moving spring 23 is provided with between described spacing ring 22 and the first fiber sensor 20, described inductive probe 21 is all connected with control box 3, the arcuate structure of the matching form of the outside surface of the nearly end surface shape of locating piece 2 end of the first detection block 16 and the air-conditioner air outlet of all detections.

Described horizontal blade testing agency 6 is positioned on the base plate 1 on the right side of locating piece 2, described horizontal blade testing agency 6 comprises the second detection block 24 and the second cylinder 25, the second described cylinder 25 is fixed on the base plate 1 on the right side of locating piece 2, and the piston rod of the second cylinder 25 and second detects block 24 is connected, described second detects block 24 between locating piece 2 and the second cylinder 25, the second described detection block 24 is also provided with the quantity step through-hole identical with horizontal blade quantity 18, in described step through-hole 18, the aperture of nearly locating piece 2 part is less than the aperture away from locating piece 2 part, contact pilotage 19 is slidably connected in described step through-hole 18, described second one end detecting nearly second cylinder 25 of block 24 is provided with the second fiber sensor 26, the second described fiber sensor 26 is provided with and contact pilotage 19 inductive probe 21 one to one, described contact pilotage 19 one end is positioned at the outside of step through-hole 18, contact pilotage 19 other end is arranged in step through-hole 18, and leave gap between contact pilotage 19 other end and inductive probe 21, described contact pilotage 19 is provided with spacing ring 22, described spacing ring 22 is arranged in step through-hole 18 and fits with the step surface of step through-hole 18, back-moving spring 23 is provided with between described spacing ring 22 and the second fiber sensor 26, described inductive probe 21 is all connected with control box 3, it is also approximate that to can be regarded as horizontal blade testing agency 6 identical with vertical vane testing agency 7 structure.

The second described cylinder 25 is positioned at directly over right clamping cylinder 15.

Described projection 4 is provided with groove 27, and described air door testing agency 5 is positioned at the bottom of groove 27, and described air door testing agency 5 is infrared probe, and described infrared probe is connected with control box 3.

Three described component detection mechanisms 9 are positioned on the base plate 1 at locating piece 2 rear, three described component detection mechanisms 9 comprise support 28, described support 28 is fixed on the base plate 1 at locating piece 2 rear, and support 28 is provided with panel detection 29, thumb wheel detection head 30 and connecting rod detection head 31 from top to bottom successively, certainly this top-down order arranges according to the position of air-conditioner air outlet top panel, thumb wheel and connecting rod, described panel detection 29, thumb wheel detection head 30 and connecting rod detection head 31 are infrared probe, and described infrared probe is connected with control box 3.

On the base plate 1 of described crank testing agency 8 between three component detection mechanisms 9 and horizontal blade testing agency 6, described crank testing agency 8 comprises fixed bar 32, described fixed bar 32 is provided with crank detection head 33, described crank detection head 33 is infrared probe, and described infrared probe is connected with control box 3.

Described control box 3 is provided with neglected loading display lamp, described neglected loading display lamp comprises crank display lamp 34, connecting rod display lamp 35, air door display lamp 36, thumb wheel display lamp 37, Display panel lamp 38, vertical vane display lamp 39 and horizontal blade display lamp 40, described handle display lamp 34, connecting rod display lamp 35, air door display lamp 36, thumb wheel display lamp 37, Display panel lamp 38, vertical vane display lamp 39 and horizontal blade display lamp 40 respectively with each testing agency one_to_one corresponding, inductive probe 21 one_to_one corresponding on described vertical vane display lamp 39 and the first fiber sensor 20, inductive probe 21 one_to_one corresponding on described horizontal blade display lamp 40 and the second fiber sensor 26, this just makes after the present invention detects parts neglected loading, corresponding display lamp will knock out, thus make workman can directly know neglected loading parts.

During use, the lower end of the air-conditioner air outlet first assembled is socketed in the projection 4 of locating piece 2; Open switch subsequently, now clamp system work, left clamping cylinder 13 and right clamping cylinder 15 work, and promote respective left clamp 12 and right clamp 14 respectively and are clamped in by air-conditioner air outlet on protruding 4; Each testing agency work subsequently, wherein the second detection block 24 is thought that air-conditioner air outlet direction promotes by the second cylinder 25 of horizontal blade testing agency 6, first contact pilotage 19 encounters the end of horizontal blade, along with the second cylinder 25 continues to promote, contact pilotage 19 slides to opposite direction under the effect of the end of horizontal blade, until the other end touch inducing probe 21 of contact pilotage 19, now inductive probe 21 is by information feed back to control box 3, and vertical vane testing agency 7 principle of work is identical with horizontal blade testing agency 6; The information of each testing agency that last control box 3 will be collected, is reflected by each display lamp, and workman only need by judging that display lamp can know the mistakes and omissions dress situation that will detect air-conditioner air outlet.

Above embodiment is only preferred embodiment of the present invention, the present invention is not limited only to above embodiment and has also allowed other structure to change, and allly changes in rights to independence claimed range of the present invention, all belongs to scope.

Claims (4)

1. an air-conditioner air outlet mistakes and omissions dress pick-up unit, it is characterized in that: it comprises base plate (1), locating piece (2) and control box (3), described locating piece (2) and control box (3) are all fixed on base plate (1), described locating piece (2) upper end is provided with the projection (4) for being socketed air-conditioner air outlet lower end, and protruding (4) are provided with air door testing agency (5), described base plate (1) is provided with horizontal blade testing agency (6), vertical vane testing agency (7), crank testing agency (8) and three component detection mechanisms (9), described horizontal blade testing agency (6), vertical vane testing agency (7), crank testing agency (8) and three component detection mechanisms (9) are distributed in the periphery of locating piece (2), described control box (3) is provided with mistakes and omissions display lamp (10) and finished product display lamp (11), described air door testing agency (5), horizontal blade testing agency (6), vertical vane testing agency (7), crank testing agency (8) is all connected with control box (3) with three component detection mechanisms (9), described vertical vane testing agency (7) is positioned on the base plate (1) in locating piece (2) front, described vertical vane testing agency (7) comprises the first detection block (16) and the first cylinder (17), described the first cylinder (17) is fixed on the base plate (1) in locating piece (2) front, and the piston rod of the first cylinder (17) and first detects block (16) is connected, described first detects block (16) is positioned between locating piece (2) and the first cylinder (17), described first detects block (16) is provided with the quantity step through-hole identical with vertical vane quantity (18), in described step through-hole (18), the aperture of nearly locating piece (2) part is less than the aperture away from locating piece (2) part, contact pilotage (19) is slidably connected in described step through-hole (18), described first one end detecting block (16) nearly first cylinder (17) is provided with the first fiber sensor (20), described the first fiber sensor (20) is provided with and contact pilotage (19) inductive probe (21) one to one, described contact pilotage (19) one end is positioned at the outside of step through-hole (18), contact pilotage (19) other end is arranged in step through-hole (18), and leave gap between contact pilotage (19) other end and inductive probe (21), described contact pilotage (19) is provided with spacing ring (22), described spacing ring (22) is arranged in step through-hole (18) and fits with the step surface of step through-hole (18), back-moving spring (23) is provided with between described spacing ring (22) and the first fiber sensor (20), described inductive probe (21) is all connected with control box (3), described horizontal blade testing agency (6) is positioned on the base plate (1) on locating piece (2) right side, described horizontal blade testing agency (6) comprises the second detection block (24) and the second cylinder (25), described the second cylinder (25) is fixed on the base plate (1) on locating piece (2) right side, and the piston rod of the second cylinder (25) and second detects block (24) is connected, described second detects block (24) is positioned between locating piece (2) and the second cylinder (25), the second described detection block (24) is also provided with the quantity step through-hole identical with horizontal blade quantity (18), in described step through-hole (18), the aperture of nearly locating piece (2) part is less than the aperture away from locating piece (2) part, contact pilotage (19) is slidably connected in described step through-hole (18), described second one end detecting block (24) nearly second cylinder (25) is provided with the second fiber sensor (26), described the second fiber sensor (26) is provided with and contact pilotage (19) inductive probe (21) one to one, described contact pilotage (19) one end is positioned at the outside of step through-hole (18), contact pilotage (19) other end is arranged in step through-hole (18), and leave gap between contact pilotage (19) other end and inductive probe (21), described contact pilotage (19) is provided with spacing ring (22), described spacing ring (22) is arranged in step through-hole (18) and fits with the step surface of step through-hole (18), back-moving spring (23) is provided with between described spacing ring (22) and the second fiber sensor (26), described inductive probe (21) is all connected with control box (3), described projection (4) is provided with groove (27), described air door testing agency (5) is positioned at the bottom of groove (27), described air door testing agency (5) is infrared probe, and described infrared probe is connected with control box (3), three described component detection mechanisms (9) are positioned on the base plate (1) at locating piece (2) rear, three described component detection mechanisms (9) comprise support (28), described support (28) is fixed on the base plate (1) at locating piece (2) rear, and support (28) is provided with panel detection head (29) from top to bottom successively, thumb wheel detection head (30) and connecting rod detection head (31), described panel detection head (29), thumb wheel detection head (30) and connecting rod detection head (31) are infrared probe, described infrared probe is connected with control box (3), described crank testing agency (8) is positioned on the base plate (1) between three component detection mechanisms (9) and horizontal blade testing agency (6), described crank testing agency (8) comprises fixed bar (32), described fixed bar (32) is provided with crank detection head (33), described crank detection head (33) is infrared probe, and described infrared probe is connected with control box (3).

2. air-conditioner air outlet mistakes and omissions dress pick-up unit according to claim 1, it is characterized in that: described base plate (1) is provided with the clamp system for clamping air-conditioner air outlet, described clamp system is positioned at the left and right sides of locating piece (2), clamp system comprises left clamp (12), left clamping cylinder (13), right clamp (14) and right clamping cylinder (15), described left clamping cylinder (13) is fixed on the base plate (1) in locating piece (2) left side, and the piston rod of left clamping cylinder (13) is connected with left clamp (12), described right clamping cylinder (15) is on the base plate (1) on locating piece (2) right side, and the piston rod of right clamping cylinder (15) is connected with right clamp (14).

3. air-conditioner air outlet mistakes and omissions dress pick-up unit according to claim 2, is characterized in that: described the second cylinder (25) is positioned at directly over right clamping cylinder (15).

4. air-conditioner air outlet mistakes and omissions dress pick-up unit according to claim 1, it is characterized in that: described control box (3) is provided with neglected loading display lamp, described neglected loading display lamp comprises crank display lamp (34), connecting rod display lamp (35), air door display lamp (36), thumb wheel display lamp (37), Display panel lamp (38), vertical vane display lamp (39) and horizontal blade display lamp (40), described crank display lamp (34), air door display lamp (36), vertical vane display lamp (39) and horizontal blade display lamp (40) respectively with crank testing agency (8), air door testing agency (5), vertical vane testing agency (7) and horizontal blade testing agency (6) one_to_one corresponding, and described connecting rod display lamp (35), thumb wheel display lamp (37) and Display panel lamp (38) corresponding with three component detection mechanisms (9), described vertical vane display lamp (39) and inductive probe (21) one_to_one corresponding on the first fiber sensor (20), described horizontal blade display lamp (40) and inductive probe (21) one_to_one corresponding on the second fiber sensor (26).