CN111515289A

CN111515289A - Air conditioner accessory apparatus for producing

Info

Publication number: CN111515289A
Application number: CN202010498071.4A
Authority: CN
Inventors: 高燕南
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-04
Filing date: 2020-06-04
Publication date: 2020-08-11

Abstract

The invention relates to the field of air conditioner accessories, in particular to an air conditioner accessory production device. The invention aims to provide an air conditioner accessory production device. An air conditioner accessory production device comprises a dual-mode shaping mechanism, a directional blanking mechanism, a switching mechanism, a control screen and a collecting frame; a directional blanking mechanism is arranged at the middle top part in the double-mold shaping mechanism; a switching mechanism is arranged on the left side of the middle part in the double-mold shaping mechanism, and the left side of the top of the switching mechanism is connected with the directional blanking mechanism. The invention realizes the automatic conversion and movement of the air-conditioning copper pipe splitter, and simultaneously carries out loading, press forming and unloading in a matching way; need not artifical handheld, can not be when the suppression because the setting equipment impact force leads to the finger injury greatly or leads to air conditioner copper pipe branch ware skew, further protection processing person's safety with improved production efficiency.

Description

Air conditioner accessory apparatus for producing

Technical Field

The invention relates to the field of air conditioner accessories, in particular to an air conditioner accessory production device.

Background

The air-conditioning copper pipe splitter is matched and shaped by manual holding when feeding, and the air-conditioning copper pipe splitter is small in size and can only be pinched by the ends of a thumb and a forefinger when being held by a hand, but the air-conditioning copper pipe splitter is damaged by shaping due to the fact that the impact force for shaping equipment is large, the air-conditioning copper pipe splitter is often deviated by a hand due to the huge impact force during processing, fingers are weak and sour due to long-time holding, and fingers are further easily moved by the air-conditioning copper pipe splitter when being deviated, so that the fingers are injured;

therefore, it is required to develop an air conditioner accessory producing apparatus to overcome the above problems.

Disclosure of Invention

The invention aims to overcome the defects that the air-conditioning copper pipe splitter is matched and shaped by manual holding when the air-conditioning copper pipe splitter is fed, the air-conditioning copper pipe splitter is small in size and can only be pinched by the end parts of a thumb and a forefinger when being held by hands, but the air-conditioning copper pipe splitter is often deviated by a hand due to large impact force during processing, so that the air-conditioning copper pipe splitter is damaged in shaping, fingers are weak and sour due to long-time holding, and fingers are further easily driven to move when the air-conditioning copper pipe splitter is deviated to cause finger injury.

The invention is achieved by the following specific technical means:

an air conditioner accessory production device comprises a dual-mode shaping mechanism, a directional blanking mechanism, a switching mechanism, a control screen and a collecting frame; a directional blanking mechanism is arranged at the middle top part in the double-mold shaping mechanism; a switching mechanism is arranged on the left side of the middle part in the double-mold shaping mechanism, and the left side of the top of the switching mechanism is connected with the directional blanking mechanism; a control screen is arranged on the middle left side in the dual-mode shaping mechanism; a collecting frame is placed in the middle of the inner bottom of the double-mold shaping mechanism.

Further preferably, the dual-mode shaping mechanism comprises an outer frame, a motor, a first driving wheel, a first bevel gear, a second driving wheel, a third bevel gear, a fourth bevel gear, a third driving wheel, a fourth driving wheel, a first driving rod, a second driving rod, a third driving rod, a first limiting sleeve frame, a shaping die, a first slider, a first slide rail, a supporting arm, a bearing module, a fifth driving wheel, a fourth driving rod, a fifth driving rod, a second limiting sleeve frame, a sixth driving rod, a pressing die, a second slider and a second slide rail; the left bottom in the outer frame is connected with a motor through a bolt; the right middle part in the outer frame is welded with the supporting arm; the front end axle center of the motor is rotationally connected with the first driving wheel; the front end axis of the first driving wheel is rotationally connected with the first bevel gear; the upper part of the first driving wheel is in transmission connection with a second driving wheel; the front right side of the first bevel gear is meshed with the second bevel gear; the right side of the second bevel gear is rotationally connected with a third bevel gear through a rotating shaft; the rear right side of the third bevel gear is meshed with the fourth bevel gear; the rear side axle center of the fourth bevel gear is rotationally connected with a third driving wheel, and the rear side axle center of the third driving wheel is connected with the third driving wheel; the upper part of the third driving wheel is in transmission connection with a fourth driving wheel; the front end axle center of the fourth driving wheel is in transmission connection with the first driving rod; the upper part of the fourth driving wheel is in transmission connection with the fifth driving wheel; the right side of the first transmission rod is in transmission connection with the second transmission rod; the rear left side of the second transmission rod is in transmission connection with a third transmission rod; the rear bottom of the third transmission rod is in sliding connection with the first limiting sleeve frame through a limiting rod; the rear top of the third transmission rod is in transmission connection with the shaping die; welding the right side of the shaping die with the first sliding block; the right side of the first sliding block is connected with the first sliding rail in a sliding mode, and the top of the first sliding rail is connected with the supporting arm; the left side of the supporting arm is connected with the middle bearing module through a bolt; the axle center of the front end of the fifth driving wheel is in driving connection with the fourth driving rod; the right side of the fourth transmission rod is in transmission connection with the fifth transmission rod; a second limiting sleeve frame is arranged on the rear left side of the fifth transmission rod; the rear left side of the fifth transmission rod is in transmission connection with the sixth transmission rod, and the rear upper right side of the fifth transmission rod is connected with the second limiting sleeve frame through a limiting bead; the lower part of the sixth transmission rod is in transmission connection with the pressing die; the right side of the pressing die is welded with the second sliding block; the right side of the second sliding block is connected with a second sliding rail in a sliding manner, and the bottom of the second sliding rail is connected with the supporting arm; the inner middle top of the outer frame is connected with a directional blanking mechanism; the left side of the middle part in the outer frame is connected with the conversion mechanism; the middle left side in the outer frame is connected with the control screen; the middle part of the inner bottom of the outer frame is connected with the collecting frame; the upper part of the second driving wheel is connected with a directional blanking mechanism.

Further preferably, the directional blanking mechanism comprises a screening table, a sixth transmission wheel, a seventh transmission rod, an eighth transmission rod, a side push rod, a ninth transmission rod, a tenth transmission rod, a limiting rod, a first spring, a wedge block, a top plate, a second spring, a top block and a lower sleeve frame; a sixth driving wheel is arranged on the left side of the material sieving table; the lower part of the outer surface of the screening table is sleeved with the lower sleeve frame; the axle center of the front end of the sixth transmission wheel is in transmission connection with the seventh transmission rod; the front right side of the seventh transmission rod is in transmission connection with the eighth transmission rod; the front left side of the seventh transmission rod is in transmission connection with the ninth transmission rod; the front right side of the eighth transmission rod is in transmission connection with the side push rod, and the middle left side of the outer surface of the side push rod is connected with the material screening table; the left side of the outer surface of the side push rod is in sliding connection with the limiting rod; the front right side of the ninth transmission rod is in transmission connection with the tenth transmission rod, and the right side of the outer surface of the tenth transmission rod is connected with the limiting rod; the bottom of the limiting rod is welded with the first spring; the bottom of the first spring is welded with the top plate, and the top plate is positioned at the top in the lower sleeve frame; the left side of the bottom of the top plate is welded by a wedge-shaped block; the right side of the top plate is welded with the second spring; seven jacking blocks are arranged in the middle of the top of the jacking plate at equal intervals; the left top, the right middle and the rear middle of the material sieving table are connected with an outer frame; the rear side axle of the sixth driving wheel is connected with the outer frame; the lower part of the sixth driving wheel is connected with the second driving wheel; the top of the limiting rod is connected with the outer frame; the top of the second spring is connected with the outer frame.

Further preferably, the conversion mechanism comprises a fifth bevel gear, a sixth bevel gear, a seventh transmission wheel, an eighth transmission wheel, a first gear, a support plate, a micro push rod, an L-shaped support block, a second gear, a screw rod, a clamping frame, a telescopic rod and a guiding conduit; the front bottom of the fifth bevel gear is meshed with the sixth bevel gear; the bottom axis of the sixth bevel gear is inserted with the seventh driving wheel through a rotating shaft; the right side of the seventh driving wheel is in transmission connection with the eighth driving wheel; the bottom axle center of the eighth driving wheel is inserted with the first gear through the rotating shaft; the bottom axis of the eighth driving wheel is inserted into the supporting plate through the rotating shaft, the supporting plate is positioned at the bottom of the first gear, and the upper left side of the supporting plate is connected with the seventh driving wheel; a micro push rod is arranged on the right side of the bottom of the supporting plate; the right side of the micro push rod is welded with the L-shaped supporting block; the middle of the top of the L-shaped supporting block is inserted into the screw rod; the bottom of the outer surface of the screw rod is inserted by a second gear; the top of the outer surface of the screw rod is in screwed connection with the clamping frame; the left middle part of the clamping frame is inserted into the telescopic rod; the right bottom of the clamping frame is spliced with the material guiding pipe; the rear side axle center of the fifth bevel gear is connected with a second transmission wheel; the left side of the supporting plate is connected with the outer frame; the left side of the micro push rod is connected with the outer frame; the left side of the telescopic rod is connected with the outer frame.

Further preferably, the rear side of the screening table bottom is provided with an inclined plane, and the bottom of the inclined plane is provided with a straight transverse plate with seven straight grooves.

Further preferably, the lower bezel bottom portion is waisted to its right side from its left side.

Further preferably, the left side of the top of the sizing die and the left side of the bottom of the middle bearing module are both provided with a protrusion combined in a double-C shape.

Preferably, a guide plate which inclines downwards from left to right is arranged on the left side of the upper middle part in the material guiding guide pipe, an opening with an L-shaped front section is arranged in the right middle part of the material guiding guide pipe, and an opening with an inclined straight front view is arranged at the top of the opening with the L-shaped front section.

Further preferably, when the micro push rod contracts, the second gear on the L-shaped supporting block is driven to be meshed with the first gear, and the second gear is driven to rotate; otherwise, when the micro push rod stretches, the second gear is not meshed with the first gear, and the second gear does not rotate.

Compared with the prior art, the invention has the following beneficial effects:

the air-conditioning copper pipe splitter is designed by manually holding the air-conditioning copper pipe splitter in a matched manner, the air-conditioning copper pipe splitter is small in size and can only be pinched by the ends of a thumb and a forefinger when being held by a hand, but the air-conditioning copper pipe splitter is usually deviated by a hand due to a large impact force during processing because of a large impact force for equipment design, so that the air-conditioning copper pipe splitter is damaged in design, fingers are weak and sour due to long-time holding, and further the problem that the fingers are easily injured due to the fact that the air-conditioning copper pipe splitter drives the fingers to move during deviation is easily solved;

the air conditioner copper pipe branching device is moved to the switching mechanism through linkage of the double-die shaping mechanism, the air conditioner copper pipe branching device is driven to the right middle part in the double-die shaping mechanism through the switching mechanism to be pressed and shaped, and the air conditioner copper pipe branching device falls into the collecting frame through matching of the switching mechanism and the double-die shaping mechanism after being shaped;

the device realizes automatic conversion and movement of the air-conditioning copper pipe splitter, and simultaneously performs loading, press forming and unloading in a matching manner; need not artifical handheld, can not be when the suppression because the setting equipment impact force leads to the finger injury greatly or leads to air conditioner copper pipe branch ware skew, further protection processing person's safety with improved production efficiency.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of a dual-mold setting mechanism according to the present invention;

FIG. 3 is a schematic structural view of the directional blanking mechanism of the present invention;

FIG. 4 is a schematic structural view of a switching mechanism of the present invention;

fig. 5 is a schematic structural diagram of the material sieving table of the invention.

The labels in the figures are: 1-a double-mold shaping mechanism, 2-a directional blanking mechanism, 3-a conversion mechanism, 4-a control screen, 5-a collection frame, 101-an outer frame, 102-a motor, 103-a first transmission wheel, 104-a first bevel gear, 105-a second bevel gear, 106-a second transmission wheel, 107-a third bevel gear, 108-a fourth bevel gear, 109-a third transmission wheel, 1010-a fourth transmission wheel, 1011-a first transmission rod, 1012-a second transmission rod, 1013-a third transmission rod, 1014-a first limit sleeve frame, 1015-a shaping mold, 1016-a first slide block, 1017-a first slide rail, 1018-a support arm, 1019-a middle bearing module, 1020-a fifth transmission wheel, 1021-a fourth transmission rod and 1022-a fifth transmission rod, 1023-a second limit sleeve frame, 1024-a sixth transmission rod, 1025-a pressing die, 1026-a second sliding block, 1027-a second sliding rail, 201-a screening table, 202-a sixth transmission wheel, 203-a seventh transmission rod, 204-an eighth transmission rod, 205-a side push rod, 206-a ninth transmission rod, 207-a tenth transmission rod, 208-a limit rod, 209-a first spring, 2010-a wedge-shaped block, 2011-a top plate, 2012-a second spring, 2013-a top block, 2014-a lower sleeve frame, 301-a fifth bevel gear, 302-a sixth bevel gear, 303-a seventh transmission wheel, 304-an eighth transmission wheel, 305-a first gear, 306-a support plate, 307-a micro push rod, 308-L-shaped support block, 309-a second gear, 3010-a screw rod, 3011-holding frame, 3012-telescopic rod, 3013-guiding tube.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

An air conditioner accessory production device is shown in figures 1-5 and comprises a dual-mode shaping mechanism 1, a directional blanking mechanism 2, a conversion mechanism 3, a control screen 4 and a collection frame 5; a directional blanking mechanism 2 is arranged at the middle top part in the double-mold shaping mechanism 1; a switching mechanism 3 is arranged on the left side of the middle part in the double-mold shaping mechanism 1, and the left side of the top of the switching mechanism 3 is connected with the directional blanking mechanism 2; a control screen 4 is arranged on the middle left side in the dual-mode shaping mechanism 1; the middle part of the inner bottom of the double-mold shaping mechanism 1 is provided with a collecting frame 5.

When the air conditioner copper pipe branching device is used, the air conditioner accessory production device is placed at a position to be used, then the air conditioner accessory production device is externally connected with a power supply, then the collecting frame 5 is placed in the middle of the inner bottom of the double-mold shaping mechanism 1, then the air conditioner copper pipe branching device is placed in the directional blanking mechanism 2, the air conditioner copper pipe branching device is moved to the switching mechanism 3 through linkage of the double-mold shaping mechanism 1, the air conditioner copper pipe branching device is driven to the right middle portion in the double-mold shaping mechanism 1 through the switching mechanism 3 to be pressed and shaped, and the air conditioner copper pipe branching device is lowered into the collecting frame 5 through matching of the switching mechanism 3 and the double-mold shaping mechanism 1 after being shaped, so that the air conditioner copper pipe branching device is automatically converted; need not artifical handheld, can not be when the suppression because the setting equipment impact force leads to the finger injury greatly or leads to air conditioner copper pipe branch ware skew, further protection processing person's safety with improved production efficiency.

The double-die shaping mechanism 1 comprises an outer frame 101, a motor 102, a first driving wheel 103, a first bevel gear 104, a second bevel gear 105, a second driving wheel 106, a third bevel gear 107, a fourth bevel gear 108, a third driving wheel 109, a fourth driving wheel 1010, a first driving rod 1011, a second driving rod 1012, a third driving rod 1013, a first limit sleeve frame 1014, a shaping die 1015, a first slide block 1016, a first slide rail 1017, a supporting arm 1018, a middle bearing module 1019, a fifth driving wheel 1020, a fourth driving rod 1021, a fifth driving rod 1022, a second limit sleeve frame 1023, a sixth driving rod 1024, a pressing die 1025, a second slide block 1026 and a second slide rail 1027; the left bottom in the outer frame 101 is connected with a motor 102 through a bolt; the right middle part in the outer frame 101 is welded with the supporting arm 1018; the front end axle center of the motor 102 is rotationally connected with the first transmission wheel 103; the front end axis of the first driving wheel 103 is rotationally connected with a first bevel gear 104; the upper part of the first driving wheel 103 is in transmission connection with a second driving wheel 106; the front right side of the first bevel gear 104 is meshed with the second bevel gear 105; the right side of the second bevel gear 105 is rotationally connected with a third bevel gear 107 through a rotating shaft; the rear right side of the third bevel gear 107 is meshed with a fourth bevel gear 108; the rear-side axis of the fourth bevel gear 108 is rotatably connected with the third transmission wheel 109, and the rear-side axis of the third transmission wheel 109 is connected with the third transmission wheel; the upper part of the third driving wheel 109 is in driving connection with a fourth driving wheel 1010; the front end axis of the fourth transmission wheel 1010 is in transmission connection with the first transmission rod 1011; the upper part of the fourth driving wheel 1010 is in transmission connection with a fifth driving wheel 1020; the right side of the first transmission rod 1011 is in transmission connection with the second transmission rod 1012; the rear left side of the second transmission rod 1012 is in transmission connection with a third transmission rod 1013; the rear bottom of the third driving rod 1013 is slidably connected with the first limit sleeve frame 1014 through the limit rod 208; the back top of the third transmission rod 1013 is in transmission connection with the shaping mold 1015; the right side of the shaping die 1015 is welded with the first sliding block 1016; the right side of the first slider 1016 is connected with a first slide rail 1017 in a sliding manner, and the top of the first slide rail 1017 is connected with a support arm 1018; the left side of the support arm 1018 is bolted to the center support block 1019; the front end axle center of the fifth driving wheel 1020 is in driving connection with the fourth driving rod 1021; the right side of the fourth driving rod 1021 is in driving connection with the fifth driving rod 1022; a second limiting sleeve frame 1023 is arranged on the rear left side of the fifth transmission rod 1022; the rear left side of the fifth transmission rod 1022 is in transmission connection with the sixth transmission rod 1024, and the rear upper right side of the fifth transmission rod 1022 is connected with the second limiting sleeve frame 1023 through a limiting bead; the lower part of the sixth transmission rod 1024 is in transmission connection with a pressing die 1025; the right side of the pressing die 1025 is welded with the second sliding block 1026; the right side of the second slider 1026 is slidably connected to the second slide rail 1027, and the bottom of the second slide rail 1027 is connected to the support arm 1018; the middle top in the outer frame 101 is connected with the directional blanking mechanism 2; the left side of the middle part in the outer frame 101 is connected with the conversion mechanism 3; the middle left side in the outer frame 101 is connected with the control screen 4; the middle part of the inner bottom of the outer frame 101 is connected with the collecting frame 5; the upper part of the second driving wheel 106 is connected with the directional blanking mechanism 2.

When the air-conditioning copper pipe branching device is driven to a pressing and shaping position by the conversion mechanism 3, the motor 102 on the outer frame 101 rotates, the motor 102 rotates to drive the first driving wheel 103 to drive the first bevel gear 104 to engage with the second bevel gear 105 for rotation, the first driving wheel 103 can also drive the second driving wheel 106 to drive the directional blanking mechanism 2 and the conversion mechanism 3 to operate, the second bevel gear 105 rotates to drive the third bevel gear 107 to engage with the fourth bevel gear 108 to drive the third driving wheel 109 to drive the fourth driving wheel 1010 to rotate, the fourth driving wheel 1010 rotates to drive the fifth driving wheel 1020 rotates to drive the fourth driving rod 1021 to drive the fifth driving rod 1022 to drive the sixth driving rod 1024 to slide in the second limit sleeve frame 1023, meanwhile, the bottom of the sixth driving rod 1024 drives the pressing die supporting arm 1025 to be in inserted fit with the bottom of the middle bearing module 1019 on the left side 1018, and simultaneously, when the pressing die 1025 slides up and down, the right side slides on the second, at the moment, the air-conditioning copper pipe branching device is driven to the middle part of a pressing die 1025 and a middle bearing module 1019 by the matching of the switching mechanism 3, then the tube head of the air-conditioning copper tube splitter is flattened through a pressing mould 1025 and a middle support module 1019, the flattening conversion mechanism 3 drives the air-conditioning copper tube splitter to move downwards to the middle of a shaping mould 1015 and the middle support module 1019, meanwhile, when the fourth driving wheel 1010 rotates, the first driving rod 1011 is driven to drive the second driving rod 1012 to drive the third driving rod 1013 to slide in the first position-limiting sleeve frame 1014, meanwhile, the third driving rod 1013 drives the shaping mold 1015 to be inserted and matched with the bottom of the middle bearing module 1019 on the left side of the supporting arm 1018, meanwhile, when the shaping mold 1015 slides up and down, the right side of the shaping mold 1015 slides on the first slide rail 1017 through the first slide block 1016 to increase the stability of the shaping mold 1015, then the air-conditioning copper pipe branching device is shaped through a shaping mould 1015 and a middle bearing module 1019, and the shaped air-conditioning copper pipe branching device moves into a collecting frame 5 through a conversion mechanism 3 to be collected; the left side of the top of the shaping mold 1015 and the left side of the bottom of the middle bearing module 1019 are both provided with a protrusion in a double-C-shaped combination, so that the shaping of double branch pipes of the air-conditioning copper pipe splitter can be realized, and the pipe head of the formed air-conditioning copper pipe splitter is shaped into a double-rotation connecting pipe sleeve shape; during pressing and shaping, the pressing die 1025 and the shaping die 1015 of the middle bearing module 1019 are in mutual contact, so that the pressing die 1025 and the shaping die 1015 of the middle bearing module 1019 can be mutually drawn and can be processed more stably; the linkage directional blanking mechanism 2 and the switching mechanism 3 are operated, the tube head of the air-conditioning copper tube splitter is pressed and shaped, manual hand-held pressing is not needed, hands of a processor are not sore, the processing safety is improved, and the damage reporting rate of the air-conditioning copper tube splitter is also reduced.

The directional blanking mechanism 2 comprises a screening platform 201, a sixth driving wheel 202, a seventh driving rod 203, an eighth driving rod 204, a side push rod 205, a ninth driving rod 206, a tenth driving rod 207, a limiting rod 208, a first spring 209, a wedge-shaped block 2010, a top plate 2011, a second spring 2012, a top block 2013 and a lower sleeve 2014; a sixth driving wheel 202 is arranged on the left side of the material sieving table 201; the lower part of the outer surface of the screening platform 201 is sleeved with the lower sleeve 2014; the axle center of the front end of the sixth transmission wheel 202 is in transmission connection with a seventh transmission rod 203; the front right side of the seventh transmission rod 203 is in transmission connection with the eighth transmission rod 204; the front left side of the seventh transmission rod 203 is in transmission connection with a ninth transmission rod 206; the front right side of the eighth transmission rod 204 is in transmission connection with the side push rod 205, and the middle left side of the outer surface of the side push rod 205 is connected with the material sieving table 201; the left side of the outer surface of the side push rod 205 is in sliding connection with the limiting rod 208; the front right side of the ninth transmission rod 206 is in transmission connection with the tenth transmission rod 207, and the right side of the outer surface of the tenth transmission rod 207 is connected with the limiting rod 208; the bottom of the limiting rod 208 is welded with a first spring 209; the bottom of the first spring 209 is welded with a top plate 2011, and the top plate 2011 is positioned at the top in the lower sleeve 2014; the left side of the bottom of the top plate 2011 is welded by a wedge block 2010; the right side of the top plate 2011 is welded with the second spring 2012; seven jacking blocks 2013 are arranged in the middle of the top plate 2011 at equal intervals; the left top, the right middle and the rear middle of the material sieving table 201 are connected with the outer frame 101; the rear axle of the sixth driving wheel 202 is connected with the outer frame 101; the lower part of the sixth driving wheel 202 is connected with the second driving wheel 106; the top of the limiting rod 208 is connected with the outer frame 101; the top of the second spring 2012 is connected to the outer frame 101.

Firstly, an L-shaped air-conditioning copper pipe splitter is placed in a hopper of a screening table 201, when a second driving wheel 106 rotates, a sixth driving wheel 202 is driven to drive a seventh driving rod 203 to drive an eighth driving rod 204 to drive a side push rod 205 to slide in a limit rod 208 and push rightwards, when the second driving wheel 106 rotates, a sixth driving wheel 202 is driven to drive a sixth driving rod 203 to drive an eighth driving rod 204 to drive a side push rod 205 to push rightwards, the air-conditioning copper pipe splitter in the hopper of the screening table 201 is pushed downwards, after the pushing downwards, because the rear side of the bottom of the screening table 201 is provided with an inclined surface, and the bottom of the inclined surface is provided with a straight transverse plate with seven straight grooves, because the air-conditioning copper pipe splitter is L-shaped, one side of the shorter side of the air-conditioning copper pipe splitter can drive a ninth driving rod 206 to drive a tenth driving rod 207 to slide in the limit rod 208 and push rightwards, so that the air-conditioning copper pipe splitter can be matched and pushed to, the clamp sleeve is followed and is selectively pushed up through centre gripping frame 3011 and simultaneously contacted with wedge 2010 and drive roof 2011 and shift up, first spring 209 and the shrink of second spring 2012 when roof 2011 shifts up, a plurality of kicking blocks 2013 that drive the top simultaneously make up respectively with a word groove, in pushing up the landing in lower cover frame 2014 after with air conditioner copper pipe branching ware, lower cover frame 2014 bottom export can prolong switching ejection of compact baffle cooperation control ejection of compact quantity, realized adjusting towards the unloading to air conditioner copper pipe branching ware.

The conversion mechanism 3 comprises a fifth bevel gear 301, a sixth bevel gear 302, a seventh transmission wheel 303, an eighth transmission wheel 304, a first gear 305, a support plate 306, a micro push rod 307, an L-shaped support block 308, a second gear 309, a screw rod 3010, a clamping frame 3011, an expansion link 3012 and a material guiding conduit 3013; the front bottom of the fifth bevel gear 301 is meshed with the sixth bevel gear 302; the bottom axis of the sixth bevel gear 302 is inserted into the seventh driving wheel 303 through a rotating shaft; the right side of the seventh driving wheel 303 is in transmission connection with an eighth driving wheel 304; the bottom axis of the eighth transmission wheel 304 is inserted into the first gear 305 through a rotating shaft; the bottom axis of the eighth transmission wheel 304 is inserted into the supporting plate 306 through a rotating shaft, the supporting plate 306 is positioned at the bottom of the first gear 305, and the upper left side of the supporting plate 306 is connected with the seventh transmission wheel 303; the right side of the bottom of the supporting plate 306 is provided with a micro push rod 307; the right side of the micro push rod 307 is welded with the L-shaped supporting block 308; the middle of the top of the L-shaped supporting block 308 is inserted into the screw rod 3010; the bottom of the outer surface of the screw rod 3010 is inserted by the second gear 309; the top of the outer surface of the screw rod 3010 is screwed with the clamping frame 3011; the left middle part of the clamping frame 3011 is spliced with the telescopic rod 3012; the right bottom of the clamping frame 3011 is spliced with a material guiding conduit 3013; the rear-side axis of the fifth bevel gear 301 is connected with the second transmission wheel 106; the left side of the supporting plate 306 is connected with the outer frame 101; the left side of the micro push rod 307 is connected with the outer frame 101; the left side of the telescopic rod 3012 is connected to the outer frame 101.

When the second transmission wheel 106 rotates, the fifth bevel gear 301 on the transmission support plate 306 engages with the sixth bevel gear 302 to drive the seventh transmission wheel 303 and the eighth transmission wheel 304 to rotate, the eighth transmission wheel 304 rotates to drive the first gear 305 to rotate, when the air-conditioning copper pipe branching device needs to be transferred, the second gear 309 on the L-shaped support block 308 is driven to contract through the miniature push rod 307, the second gear 309 is driven to contract after engaging with the first gear 305 to rotate, then the first gear 305 drives the lead screw 3010 to rotate to drive the clamping frame 3011 to move upwards, the telescopic rod 3012 is stable when the clamping frame 3011 moves left and right, then the clamping frame 3011 moves upwards and drives the guiding conduit 3013 to move upwards, then when the preset transfer height is reached, the miniature push rod 307 stretches out and draws back to drive the second gear 309 on the L-shaped support block 308 not to engage with the first gear 305, and simultaneously drives the lead screw 3010 to drive the clamping frame 3011 and then drive the guiding conduit 3013 to move right to butt with the lower frame opening, during butt joint, the left side of the top of the clamping frame 3011 can contact with the wedge block 2010 to drive the top plate 2011 to move upwards, the blanked air-conditioning copper pipe splitter is limited and clamped in the middle after sliding, meanwhile, the pipe head faces right, and then compression molding is carried out through the double-die shaping mechanism 1; and then after pressing, the air-conditioning copper pipe splitter on the material guide pipe 3013 is contacted with any edge of the left end of the pressing mould 1025 and the shaping mould 1015 of the middle bearing module 1019, so that the air-conditioning copper pipe splitter is jacked down, and conversion matching pressing shaping and matching automatic blanking are realized.

Wherein, the rear side of the bottom of the material sieving table 201 is provided with an inclined plane, and the bottom of the inclined plane is provided with a straight transverse plate with seven straight grooves, so that the air-conditioning copper pipe splitter can be clamped and sleeved in the straight grooves after being pushed in a matching way.

Wherein, the left side of the bottom of the lower sleeve 2014 is waisted towards the right side thereof, so that the air-conditioning copper pipe splitter can be positioned and discharged towards the lower right side.

Wherein, design mould 1015 top left side and well bear module 1019 bottom left side all are provided with the protruding of a two C word form combinations, can realize carrying out the design of double branch pipe to air conditioner copper pipe splitter.

Wherein, the upper middle left side in the material guide pipe 3013 is provided with a guide plate that descends to one side from the upper left side to the right side, and the right middle part of material guide pipe 3013 is provided with an opening that the front view cross-section is L form simultaneously, and the opening top that the front view cross-section is L form is provided with an opening that the foresight is oblique word form simultaneously, can cooperate the butt joint that realizes lower cover frame 2014 to shift air conditioner copper pipe branching ware and spacing cooperation later stage press forming.

When the micro push rod 307 contracts, the second gear 309 on the L-shaped supporting block 308 is driven to be meshed with the first gear 305, and the second gear 309 is driven to rotate; on the contrary, when the micro push rod 307 is extended or retracted, the second gear 309 is not engaged with the first gear 305, and the second gear 309 does not rotate; the adjustment of conversion can be realized by matching with the driving conversion mechanism 3.

Although the present disclosure has been described in detail with reference to the exemplary embodiments, the present disclosure is not limited thereto, and it will be apparent to those skilled in the art that various modifications and changes can be made thereto without departing from the scope of the present disclosure.

Claims

1. An air conditioner accessory production device comprises a control screen (4) and a collection frame (5), and is characterized by further comprising a dual-mode shaping mechanism (1), a directional blanking mechanism (2) and a conversion mechanism (3); a directional blanking mechanism (2) is arranged at the middle top part in the double-mold shaping mechanism (1); a switching mechanism (3) is arranged on the left side of the middle part in the double-mold shaping mechanism (1), and the left side of the top of the switching mechanism (3) is connected with the directional blanking mechanism (2); a control screen (4) is arranged on the middle left side in the dual-mode shaping mechanism (1); a collecting frame (5) is arranged in the middle of the inner bottom of the double-mold shaping mechanism (1).

2. An air conditioning accessory production device as claimed in claim 1, wherein the double-mold shaping mechanism (1) comprises an outer frame (101), a motor (102), a first driving wheel (103), a first bevel gear (104), a second bevel gear (105), a second driving wheel (106), a third bevel gear (107), a fourth bevel gear (108), a third driving wheel (109), a fourth driving wheel (1010), a first driving rod (1011), a second driving rod (1012), a third driving rod (1013), a first limit sleeve frame (1014), a shaping mold (1015), a first slide block (1016), a first slide rail (1017), a support arm (1018), a bearing module (1019), a fifth driving wheel (1020), a fourth driving rod (1021), a fifth driving rod (1022), a second limit sleeve frame (1023), a sixth driving rod (1024), a pressing mold (1025), a second slide block (1026) and a second slide rail (1027); the left bottom in the outer frame (101) is connected with a motor (102) through a bolt; the right middle part in the outer frame (101) is welded with the supporting arm (1018); the front end axle center of the motor (102) is rotationally connected with the first transmission wheel (103); the front end axis of the first driving wheel (103) is rotationally connected with the first bevel gear (104); the upper part of the first driving wheel (103) is in transmission connection with a second driving wheel (106); the front right side of the first bevel gear (104) is meshed with the second bevel gear (105); the right side of the second bevel gear (105) is rotationally connected with a third bevel gear (107) through a rotating shaft; the rear right side of the third bevel gear (107) is meshed with a fourth bevel gear (108); the rear shaft center of the fourth bevel gear (108) is rotationally connected with a third driving wheel (109), and the rear shaft center of the third driving wheel (109) is connected with the third driving wheel; the upper part of the third driving wheel (109) is in transmission connection with a fourth driving wheel (1010); the front end axis of the fourth transmission wheel (1010) is in transmission connection with the first transmission rod (1011); the upper part of the fourth driving wheel (1010) is in transmission connection with a fifth driving wheel (1020); the right side of the first transmission rod (1011) is in transmission connection with the second transmission rod (1012); the rear left side of the second transmission rod (1012) is in transmission connection with the third transmission rod (1013); the rear bottom of the third driving rod (1013) is in sliding connection with the first limit sleeve frame (1014) through a limit rod (208); the rear top of the third transmission rod (1013) is in transmission connection with the shaping mold (1015); the right side of the shaping die (1015) is welded with the first sliding block (1016); the right side of the first sliding block (1016) is connected with a first sliding rail (1017) in a sliding mode, and the top of the first sliding rail (1017) is connected with the supporting arm (1018); the left side of the supporting arm (1018) is connected with a middle bearing module (1019) through bolts; the front end axle center of the fifth driving wheel (1020) is in transmission connection with the fourth driving rod (1021); the right side of the fourth driving rod (1021) is in driving connection with the fifth driving rod (1022); a second limiting sleeve frame (1023) is arranged on the rear left side of the fifth transmission rod (1022); the rear left side of the fifth transmission rod (1022) is in transmission connection with the sixth transmission rod (1024), and the rear upper right side of the fifth transmission rod (1022) is connected with the second limiting sleeve frame (1023) through a limiting bead; the lower part of the sixth transmission rod (1024) is in transmission connection with a pressing die (1025); the right side of the pressing die (1025) is welded with the second sliding block (1026); the right side of the second sliding block (1026) is connected with a second sliding rail (1027) in a sliding way, and the bottom of the second sliding rail (1027) is connected with the supporting arm (1018); the middle top in the outer frame (101) is connected with the directional blanking mechanism (2); the left side of the middle part in the outer frame (101) is connected with the conversion mechanism (3); the middle left side in the outer frame (101) is connected with the control screen (4); the middle part of the inner bottom of the outer frame (101) is connected with the collecting frame (5); the upper part of the second driving wheel (106) is connected with the directional blanking mechanism (2).

3. The air conditioner accessory production device as claimed in claim 2, wherein the directional blanking mechanism (2) comprises a screening table (201), a sixth transmission wheel (202), a seventh transmission rod (203), an eighth transmission rod (204), a side push rod (205), a ninth transmission rod (206), a tenth transmission rod (207), a limiting rod (208), a first spring (209), a wedge-shaped block (2010), a top plate (2011), a second spring (2012), a top block (2013) and a lower sleeve frame (2014); a sixth driving wheel (202) is arranged on the left side of the material sieving table (201); the lower part of the outer surface of the screening platform (201) is sleeved with a lower sleeve frame (2014); the front end axle center of the sixth driving wheel (202) is in transmission connection with a seventh driving rod (203); the front right side of the seventh transmission rod (203) is in transmission connection with the eighth transmission rod (204); the front left side of the seventh transmission rod (203) is in transmission connection with a ninth transmission rod (206); the front right side of the eighth transmission rod (204) is in transmission connection with a side push rod (205), and the middle left side of the outer surface of the side push rod (205) is connected with a material sieving table (201); the left side of the outer surface of the side push rod (205) is in sliding connection with the limiting rod (208); the front right side of the ninth transmission rod (206) is in transmission connection with a tenth transmission rod (207), and the right side of the outer surface of the tenth transmission rod (207) is connected with a limiting rod (208); the bottom of the limiting rod (208) is welded with the first spring (209); the bottom of the first spring (209) is welded with a top plate (2011), and the top plate (2011) is positioned at the top in the lower sleeve frame (2014); the left side of the bottom of the top plate (2011) is welded by a wedge-shaped block (2010); the right side of the top plate (2011) is welded with the second spring (2012); seven top blocks (2013) are arranged in the middle of the top plate (2011) at equal intervals; the left top, the right middle part and the rear middle part of the material sieving table (201) are connected with the outer frame (101); the rear side axle center of the sixth transmission wheel (202) is connected with the outer frame (101); the lower part of the sixth driving wheel (202) is connected with the second driving wheel (106); the top of the limiting rod (208) is connected with the outer frame (101); the top of the second spring (2012) is connected with the outer frame (101).

4. An air conditioner accessory production device as claimed in claim 3, wherein the conversion mechanism (3) comprises a fifth bevel gear (301), a sixth bevel gear (302), a seventh transmission wheel (303), an eighth transmission wheel (304), a first gear (305), a support plate (306), a micro push rod (307), an L-shaped support block (308), a second gear (309), a lead screw (3010), a clamping frame (3011), a telescopic rod (3012) and a guiding conduit (3013); the front bottom of the fifth bevel gear (301) is meshed with the sixth bevel gear (302); the bottom axis of the sixth bevel gear (302) is inserted with a seventh driving wheel (303) through a rotating shaft; the right side of the seventh driving wheel (303) is in transmission connection with an eighth driving wheel (304); the bottom axis of the eighth transmission wheel (304) is inserted with the first gear (305) through a rotating shaft; the bottom axle center of the eighth driving wheel (304) is inserted into the supporting plate (306) through a rotating shaft, the supporting plate (306) is positioned at the bottom of the first gear (305), and the upper left side of the supporting plate (306) is connected with the seventh driving wheel (303); a micro push rod (307) is arranged on the right side of the bottom of the supporting plate (306); the right side of the micro push rod (307) is welded with the L-shaped supporting block (308); the top middle part of the L-shaped supporting block (308) is inserted into the screw rod (3010); the bottom of the outer surface of the screw rod (3010) is inserted by a second gear (309); the top of the outer surface of the screw rod (3010) is connected with the clamping frame (3011) in a screwing way; the middle left part of the clamping frame (3011) is spliced with the telescopic rod (3012); the right bottom of the clamping frame (3011) is inserted into the material guiding conduit (3013); the rear side axis of the fifth bevel gear (301) is connected with a second transmission wheel (106); the left side of the supporting plate (306) is connected with the outer frame (101); the left side of the micro push rod (307) is connected with the outer frame (101); the left side of the expansion link (3012) is connected with the outer frame (101).

5. An air conditioner accessory production device as claimed in claim 4, wherein the rear side of the bottom of the screening table (201) is provided with an inclined plane, and the bottom of the inclined plane is provided with a straight cross plate with seven straight grooves.

6. An air conditioner accessory production device as claimed in claim 5, wherein the lower cover frame (2014) is waisted towards its right side from its bottom left side.

7. An air conditioner accessory production device as claimed in claim 6, wherein the left side of the top of the sizing die (1015) and the left side of the bottom of the middle bearing module (1019) are both provided with a protrusion combined in a double-C shape.

8. The apparatus for producing air-conditioning accessories as claimed in claim 7, wherein a guide plate inclined downward from left to right is provided at the left side of the upper-middle part in the guide duct (3013), an opening having a front view cross-section in an L-shape is provided at the right middle part of the guide duct (3013), and an opening having a front view cross-section in an inclined straight shape is provided at the top of the opening having a front view cross-section in an L-shape.

9. An air conditioner accessory production device as claimed in claim 8, wherein when the micro push rod (307) is contracted, the second gear (309) on the L-shaped support block (308) is driven to mesh with the first gear (305), and the second gear (309) is driven to rotate; on the contrary, when the micro push rod (307) extends and contracts, the second gear (309) is not meshed with the first gear (305), and the second gear (309) does not rotate.