CN112276467A - Welding system for air conditioner refrigeration copper pipe and working method - Google Patents

Abstract

The invention discloses a welding system and a working method for an air-conditioning refrigeration copper pipe, which relate to the technical field of air-conditioning copper pipe processing and comprise a fixing mechanism and a welding mechanism, wherein the welding mechanism is arranged on the fixing mechanism, the fixing mechanism is portable, and the fixing mechanism is fixed or manually fixed according to an actual position; the invention can be fixed at different positions, can solve the problem that the two copper pipes are not at the same horizontal position after welding due to the deviation of the two copper pipes during welding, can be carried compared with the welding technology in the prior art, can be manually fixed at some special positions, for example, the position where equipment cannot be fixed, and solves the problem that the welding equipment in the prior art can work only by being fixed at a certain position.

Description

Welding system for air conditioner refrigeration copper pipe and working method

Technical Field

The invention relates to the technical field of air conditioner copper pipe processing, in particular to a welding system for an air conditioner refrigeration copper pipe and a working method.

Background

The air conditioner copper pipe is a connecting copper pipe for connecting an indoor unit and an outdoor unit of an air conditioner, and the air conditioner copper pipe has the characteristics of hard texture, difficult corrosion, high temperature resistance, high pressure resistance and the like, is deeply favored by people to achieve the purpose of convenient operation, but has the defects in practical use;

air conditioner copper pipe need be fixed when the welding, and the welding needs to be fixed and prevents that two copper pipes from taking place the skew when the welding, but the position of every air conditioner installation all has certain difference, leads to two copper pipes not on same horizontal position after the welding is accomplished, influences the use, and the position of air conditioner copper pipe is not fixed, and current welding equipment is because the volume is too big can't carry again, so leads to most welding equipment to be unable to use.

Disclosure of Invention

The invention aims to provide a welding system for an air conditioner refrigeration copper pipe and a working method, so as to solve the technical problems in the background technology.

The invention provides a welding system for an air conditioner refrigeration copper pipe and a working method.

Furthermore, the fixing mechanism comprises a vertical driving part, a horizontal driving part and two groups of clamping parts, wherein the horizontal driving part is arranged below the vertical driving part, the two groups of clamping parts are symmetrically arranged below the vertical driving part, and the horizontal driving part is connected with the vertical driving part.

Further, the vertical driving part comprises a first placing box, a first motor, a driving connecting rod, a first belt pulley, a second belt pulley, a connecting belt, a hollow rotating rod, a first connecting rod, a fixing bolt, a first bevel gear set, a second bevel gear set and a threaded pipe, wherein the first motor, the driving connecting rod, the first belt pulley, the second belt pulley, the connecting belt, the hollow rotating rod, the first connecting rod, the fixing bolt, the first bevel gear set, the second bevel gear set and the threaded pipe are all arranged in the first placing box, the output end of the first motor is connected with the driving connecting rod, the first belt pulley is arranged on the driving connecting rod, the hollow rotating rod is arranged on one side of the driving connecting rod, the second belt pulley is arranged on the hollow rotating rod, the connecting belt is arranged on the first belt pulley and the second belt pulley, the first connecting rod and the fixing bolt are both provided with two connecting rods, two the one end symmetry of head rod sets up the both sides at hollow dwang, and two the one end of head rod all is located hollow dwang, two the fixing bolt symmetry sets up on hollow dwang, one of them the other end of head rod is connected with the one end of first bevel gear group, another the other end of head rod is connected with second bevel gear group's one end, two are established to the screwed pipe sets up respectively in the below of first bevel gear group and second bevel gear group, two the bottom of screwed pipe all runs through first place the case and extend, two the screwed pipe all is connected with clamping unit.

Further, the horizontal driving component comprises a second placing box, a second motor, a first gear, a first fixed pile, a first moving rod, a second moving rod, a first connecting frame and a second connecting frame, the second placing box is arranged below the first placing box, the second motor, the first gear, the first fixed pile, the first moving rod, the second moving rod, the first connecting frame and the second connecting frame are all arranged in the second placing box, the output end of the second motor is connected with the first gear, the number of the first fixed piles is four, the four first fixed piles are symmetrically arranged in the second placing box in pairs, tooth grooves are respectively arranged on the first moving rod and the second moving rod, the first moving rod and the second moving rod are symmetrically arranged on two sides in the second placing box, and the first moving rod and the second moving rod are respectively positioned in the first fixed piles, the first gear is arranged between the two second moving rods and is respectively meshed with tooth grooves on the two second moving rods, the first connecting frame and the second connecting frame are symmetrically arranged in the second placing box and are respectively positioned on two sides of the first fixing pile, one second moving rod is connected with the first connecting frame, the other second moving rod is connected with the second connecting frame, the first connecting frame is respectively connected with one first connecting rod and one threaded pipe, and the second connecting frame is respectively connected with the other first connecting rod and the other threaded pipe.

Furthermore, each group of clamping parts comprises a threaded rod, a third placing box, a third motor, a fixing frame, a protection plate, a worm wheel placing rod, a clamp and a rubber protection layer, wherein the threaded rod is arranged above the third placing box and is connected with a threaded pipe, the third motor is arranged in the third placing box, the fixing frame is arranged below the third placing box, the protection plate is arranged at the bottom end in the fixing frame, the worm wheel and the worm wheel placing rod are all arranged in the fixing frame, the worm wheel and the worm wheel placing rod are all positioned above the protection plate, the output end of the third motor is connected with the worm, the worm wheel placing rod, the clamp and the rubber protection layer are respectively provided with two worm wheel placing rods, the two worm wheel placing rods are symmetrically arranged at two sides of the worm, and two ends of the two worm wheel placing rods are movably connected with the fixing frame, the two worm wheels are respectively arranged on the worm wheel placing rod, the two worm wheels are all meshed with the worm, the two fixtures are respectively arranged on the worm wheel placing rod, and the two rubber protective layers are respectively arranged on the fixtures.

Further, the welding mechanism comprises a welding driving part and a welding operation part, the welding driving part is arranged on one side of the second placing box, and the welding operation part is arranged on the welding driving part.

Further, the welding driving part comprises a fixed plate, second fixed piles, a third moving rod, electric push rods, a third connecting frame and a second gear, the fixed plate is arranged below the first placing box, the fixed plate is positioned on one side of the second placing box, the number of the second fixed piles is four, the four second fixed piles are symmetrically arranged at two ends of one side of the second placing box in pairs, the third moving rod is arranged in the second fixed pile, tooth grooves are formed in the fixed plate and the third moving rod, the second gear is respectively meshed with the third moving rod and the tooth grooves formed in the fixed plate, the electric push rods, the third connecting frame and the second gear are respectively arranged between the fixed plate and the third moving rod, the output end of the electric push rods is connected with one end of the third connecting frame, the other end of the third connecting frame penetrates through the second gear, and the other end of the third connecting frame is movably connected with the second gear, the third travel bar is connected to the welding operation member.

Further, the welding operation part includes the second connecting rod, connects base, fixed disk, activity disc, fixed connection frame, adjustable shelf and welding rifle, the second connecting rod sets up on connecting the base, the second connecting rod is connected with the third carriage release lever, it sets up the below of placing the case at the second to connect the base interval, the activity disc sets up in the below of connecting the base, the activity disc sets up the top at the fixed connection frame, activity disc and fixed disk swing joint, the adjustable shelf is equipped with two, two the adjustable shelf symmetry sets up in the fixed connection frame, two the adjustable shelf all with fixed connection frame swing joint, the welding rifle sets up in two adjustable shelves.

The working method of the welding system for the air-conditioning refrigeration copper pipe comprises the following steps:

s1: the first placing box can be installed and fixed according to actual needs or manually fixed, when an air-conditioning copper pipe needs to be fixed, two air conditioners are respectively placed in the clamps for fixing, the worm can drive the two worm wheels to rotate through the driving of the third motor, the worm wheel placing rod can be driven to rotate when rotating, the clamps can be driven to rotate through the worm wheel placing rod, the two clamps can be opened when the worm is driven to rotate clockwise by the third motor, the air-conditioning copper pipe can be placed in the clamps at the moment, the two clamps can be closed when the worm is driven to rotate anticlockwise by the third motor, the air-conditioning copper pipe can be fixed by the clamps at the moment, and the air conditioners can be protected from being damaged on the surface of the air-conditioning copper pipe due to the connection with the clamps through the rubber protective layer arranged on the clamps,

s2: after the position of the air-conditioning copper pipe is fixed, the first motor can drive the driving connecting rod to drive the first belt pulley to rotate, the first belt pulley drives the second belt pulley to rotate through the connecting belt, the hollow rotating rod can synchronously rotate through the rotation of the second belt pulley, the first connecting rod and the hollow rotating rod can be connected and fixed when the fixing bolt is locked, and the first connecting rod can be positioned in the hollow rotating rod and not connected when the fixing bolt is not locked, the hollow rotating rod can drive the two first connecting rods to rotate through the locking of the fixing bolt, the two first connecting rods respectively drive the first bevel gear set and the second bevel gear set to rotate, the two threaded pipes can rotate through the first bevel gear set and the second bevel gear set, and the threaded rods can vertically move through the third placing box after being connected with the threaded pipes; the jig can be moved in the vertical direction by the above-described movement.

S3: after the clamp vertically moves to complete the positioning, the second gear is driven to rotate by the second motor, the first moving rod and the second moving rod can move through the second gear, the first moving rod and the second moving rod move oppositely when moving simultaneously, the first connecting frame and the second connecting frame can move oppositely through the first moving rod and the second moving rod, and the two first moving rods and the two threaded pipes can synchronously move through the first connecting frame and the second connecting frame; through the connection cooperation, the clamp can move in the vertical direction and the horizontal direction, so that the clamp can be adjusted according to the position of the air conditioner copper pipe, and the problem that the welding equipment in the prior art cannot effectively fix the air conditioner copper pipe according to the position of the air conditioner copper pipe can be solved.

S4: after the position of the air-conditioning copper pipe is fixed, the position of a welding gun is adjusted, a third connecting frame can be moved through an electric push rod, the third connecting frame can push a second gear to move, the second gear can be limited by a tooth socket arranged on a fixed plate when moving, the second gear can rotate, the second gear can drive a third moving rod to move when rotating, and the second connecting rod can be driven to horizontally move when moving; the position of the welding gun can be adjusted to enable the welding gun to correspond to the position of the air-conditioning copper pipe to be welded;

s5: after the position of the welding gun is adjusted, the welding gun needs to be manually operated, the welding gun is arranged on equipment, the problem that the welding gun is left or lost can be reduced, the welding gun can rotate through the connection of the fixed disc and the movable disc, and the welding gun can be adjusted in angle through the connection of the movable frame and the fixed connecting frame, so that the welding of the welding gun on an air-conditioning copper pipe can be completed, and the problem that the operation is influenced when the welding gun is arranged on the equipment is solved; the welding operation of the welding gun on the air conditioner copper pipe can be completed through the welding gun.

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

first, the problem that two copper pipes are not in the same horizontal position after welding due to the fact that the two copper pipes can deviate during welding can be solved through the fixing mechanism and the welding mechanism, compared with the prior art, the copper pipe welding device is small in size and convenient to carry, the device can be manually held and fixed in some special positions, for example, when the device cannot be fixed, and the problem that welding equipment in the prior art can work only when being fixed in a certain position is solved.

Secondly, the clamping component can move vertically through the vertical driving component, the vertical driving component and the clamping component can move horizontally through the horizontal driving component, the air-conditioning copper pipe can be clamped through the clamping part, during operation, two air-conditioning copper pipes which need to be welded correspond to each other, and the two groups of clamping components are used for clamping, when the positions of the two air-conditioning copper pipes are corresponding and fixed, the welding mechanism can be used for welding, the vertical driving component can lower the position of the clamping component, the welding mechanism can not influence the vertical driving component and the horizontal driving component during welding, the vertical driving part can be adjusted according to the position of the air-conditioning copper pipe, and the horizontal driving part can enable the clamping part to be adjusted according to the distance between the air-conditioning copper pipes, so that the phenomenon that the air-conditioning copper pipes cannot be fixed due to the fact that the air-conditioning copper pipes are close to each other or far away from each other is avoided; the problem that air conditioner copper pipe welding equipment is poor in fixing effect or cannot be fixed due to different positions can be solved through connection matching of the parts.

Third, can make welding drive part drive welding operation part carry out horizontal migration through the second connecting rod, can reduce the problem that the welding rifle left over or lost through setting up the welding rifle on equipment, the welding rifle needs manual operation, can make the welding rifle rotatory with being connected of activity disc through fixed disc, can make the welding rifle carry out the regulation of angle through being connected of adjustable shelf and fixed connection frame, thereby can accomplish the welding of welding rifle to air conditioner copper pipe, the problem that the welding rifle setting influences the operation on equipment has been solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic perspective view of a first angle of the present invention;

FIG. 2 is a perspective view of a second angle of the present invention;

FIG. 3 is an enlarged view taken at A in FIG. 2;

FIG. 4 is a partial schematic view of the present invention;

FIG. 5 is a schematic view of a portion of the inner clamping unit of the present invention;

FIG. 6 is a second partial schematic view of the inner clamping unit of the present invention.

Reference numerals: fixing mechanism 1, vertical driving component 11, first placing box 111, first motor 112, driving connecting rod 113, first belt pulley 114, second belt pulley 115, connecting belt 116, hollow rotating rod 117, first connecting rod 118, fixing bolt 119, first bevel gear set 1110, second bevel gear set 1111, threaded pipe 1112, horizontal driving component 12, second placing box 121, second motor 122, first gear 123, first fixing pile 124, first moving rod 125, second moving rod 126, first connecting frame 127, second connecting frame 128, clamping component 13, threaded rod 131, third placing box 132, third motor 133, fixing frame 134, protection plate 135, worm 136, worm gear 137, worm wheel placing rod 138, clamp 139, rubber protection layer 1310, welding mechanism 2, welding driving component 21, fixing plate 211, second fixing pile 212, third moving rod 213, electric push rod 214, third connecting frame 215, hollow rotating rod 117, first connecting rod 118, hollow rotating rod 119, first connecting rod 118, fixing bolt 119, first bevel gear set 1110, second bevel gear set 1111, threaded pipe 1112, horizontal driving component 12, second placing, A second gear 216, a welding operation part 22, a second connecting rod 221, a connecting base 222, a fixed disk 223, a movable disk 224, a fixed connecting frame 225, a movable frame 226, and a welding gun 227.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 6, an embodiment of the present invention provides a welding system and a working method for a copper pipe for refrigeration of an air conditioner, including a fixing mechanism 1 and a welding mechanism 2, where the welding mechanism 2 is disposed on the fixing mechanism 1, the fixing mechanism 1 is portable, and the fixing mechanism 1 is fixed or manually fixed according to an actual position; the air conditioner copper pipe can be fixed at different positions, and the positions of the air conditioner copper pipes are determined according to the installation of an air conditioner, so that the positions of the air conditioner copper pipes, which are required to be installed, are possibly different.

Specifically, the fixing mechanism 1 comprises a vertical driving part 11, a horizontal driving part 12 and clamping parts 13, wherein the horizontal driving part 12 is arranged below the vertical driving part 11, two groups of clamping parts 13 are arranged, the two groups of clamping parts 13 are symmetrically arranged below the vertical driving part 11, and the horizontal driving part 12 is connected with the vertical driving part 11; the vertical driving part 11 can make the clamping part 13 move vertically, the horizontal driving part 12 can make the vertical driving part 11 and the clamping part 13 move horizontally, and the air-conditioning copper pipe can be clamped by the clamping part 13; when the air-conditioning copper pipe welding machine is used for working, two air-conditioning copper pipes needing to be welded correspond to each other and are clamped through the two groups of clamping parts 13, when the two air-conditioning copper pipes correspond to each other and are fixed, the two air-conditioning copper pipes can be welded through the welding mechanism 2, the vertical driving part 11 can enable the position of the clamping parts 13 to descend, the vertical driving part 11 and the horizontal driving part 12 cannot be affected when the welding mechanism 2 is used for welding, the vertical driving part 11 can be adjusted according to the positions of the air-conditioning copper pipes, the horizontal driving part 12 can enable the clamping parts 13 to be adjusted according to the distance between the air-conditioning copper pipes, and the situation that the air-conditioning copper pipes; the problem that air conditioner copper pipe welding equipment is poor in fixing effect or cannot be fixed due to different positions can be solved through connection matching of the parts.

Specifically, the vertical driving part 11 includes a first placing box 111, a first motor 112, a driving connecting rod 113, a first belt pulley 114, a second belt pulley 115, a connecting belt 116, a hollow rotating rod 117, a first connecting rod 118, a fixing bolt 119, a first bevel gear set 1110, a second bevel gear set 1111 and a threaded pipe 1112, the first motor 112, the driving connecting rod 113, the first belt pulley 114, the second belt pulley 115, the connecting belt 116, the hollow rotating rod 117, the first connecting rod 118, the fixing bolt 119, the first bevel gear set 1110, the second bevel gear set 1111 and the threaded pipe 1112 are all disposed in the first placing box 111, the output end of the first motor 112 is connected with the driving connecting rod 113, the first belt pulley 114 is disposed on the driving connecting rod 113, the hollow rotating rod 117 is disposed at one side of the driving connecting rod 113, the second belt pulley 115 is disposed on the hollow rotating rod 117, the connecting belt 116 is provided on the first pulley 114 and the second pulley 115, two first connecting rods 118 and two fixing bolts 119 are arranged, one ends of the two first connecting rods 118 are symmetrically arranged at two sides of the hollow rotating rod 117, and one end of each of the two first connecting rods 118 is located inside the hollow rotating rod 117, the two fixing bolts 119 are symmetrically arranged on the hollow rotating rod 117, one of the first connecting rods 118 has the other end connected to one end of a first bevel gear set 1110, the other of the first connecting rods 118 has the other end connected to one end of a second bevel gear set 1111, two threaded pipes 1112 are arranged, the two threaded pipes 1112 are respectively arranged below the first bevel gear set 1110 and the second bevel gear set 1111, the bottom ends of the two threaded pipes 1112 penetrate through the first placing box 111 and extend out, and the two threaded pipes 1112 are connected with the clamping component 13; in operation, the first placing box 111 can be fixed by hand or by installation according to actual needs, the driving connecting rod 113 can drive the first belt pulley 114 to rotate by the driving of the first motor 112, the first belt pulley 114 drives the second belt pulley 115 to rotate by the connecting belt 116, the hollow rotating rod 117 can synchronously rotate by the rotation of the second belt pulley 115, the first connecting rod 118 can be fixedly connected with the hollow rotating rod 117 when the fixing bolt 119 is locked, and when the fixing bolt 119 is not locked, the first connecting rod 118 can be positioned in the hollow rotating rod 117 and not connected, the hollow rotating rod 117 can drive the two first connecting rods 118 to rotate by locking the fixing bolt 119, the two first connecting rods 118 respectively drive the first bevel gear set 1110 and the second bevel gear set 1111 to rotate, two threaded pipes 1112 can be rotated by a first bevel gear set 1110 and a second bevel gear set 1111; the vertical driving part 11 can drive the clamping part 13 to move vertically through the connection fit.

Specifically, the horizontal driving part 12 includes a second placing box 121, a second motor 122, a first gear 123, a first fixing pile 124, a first moving rod 125, a second moving rod 126, a first connecting frame 127 and a second connecting frame 128, the second placing box 121 is disposed below the first placing box 111, the second motor 122, the first gear 123, the first fixing pile 124, the first moving rod 125, the second moving rod 126, the first connecting frame 127 and the second connecting frame 128 are all disposed in the second placing box 121, an output end of the second motor 122 is connected with the first gear 123, the first fixing piles 124 are four, the four first fixing piles 124 are symmetrically disposed in the second placing box 121, tooth grooves are disposed on the first moving rod 125 and the second moving rod 126, the first moving rod 125 and the second moving rod 126 are symmetrically disposed on two sides of the second placing box 121, and the first movable rod 125 and the second movable rod 126 are respectively located in the first fixed pile 124, the first gear 123 is arranged between the two second movable rods 126, and the first gear 123 is respectively engaged with the tooth grooves on the two second movable rods 126, the first connecting frame 127 and the second connecting frame 128 are symmetrically arranged in the second placing box 121, and the first connecting frame 127 and the second connecting frame 128 are respectively located at both sides of the first fixed pile 124, one of the second movable rods 126 is connected with the first connecting frame 127, the other of the second movable rods 126 is connected with the second connecting frame 128, the first connecting frame 127 is respectively connected with one of the first connecting rods 118 and one of the threaded pipes 1112, and the second connecting frame 128 is respectively connected with the other of the first connecting rods 118 and the other of the threaded pipes 1112; during operation, the second gear 216 is rotated by driving of the second motor 122, the first moving bar 125 and the second moving bar 126 can be moved by the second gear 216, the first moving bar 125 and the second moving bar 126 move in opposite directions when moving simultaneously, the first connecting frame 127 and the second connecting frame 128 can be moved in opposite directions by the first moving bar 125 and the second moving bar 126, and the two second moving bars 125 and the two threaded pipes 1112 can be moved in synchronization by the first connecting frame 127 and the second connecting frame 128; through the connection and the matching, the vertical driving part 11 can drive the clamping parts 13 to move horizontally and oppositely, so that the distance between the two clamping parts 13 is shortened or increased, and the adjustment is convenient according to the distance between the air-conditioning copper pipes;

specifically, each set of the clamping parts 13 includes a threaded rod 131, a third placing box 132, a third motor 133, a fixing frame 134, a protection plate 135, a worm 136, a worm wheel 137, a worm wheel placing rod 138, a clamp 139 and a rubber protection layer 1310, the threaded rod 131 is disposed above the third placing box 132, the threaded rod 131 is connected to a threaded pipe 1112, the third motor 133 is disposed in the third placing box 132, the fixing frame 134 is disposed below the third placing box 132, the protection plate 135 is disposed at the bottom end of the fixing frame 134, the worm 136, the worm wheel 137 and the worm wheel placing rod 138 are disposed in the fixing frame 134, the worm 136, the worm wheel 137 and the worm wheel placing rod 138 are all located above the protection plate 135, the output end of the third motor 133 is connected to the worm 136, the worm wheel 137, the worm wheel placing rod 138, the clamp 139 and the rubber protection layer 1310 are all two, the two worm wheel placing rods 138 are symmetrically arranged on two sides of the worm 136, two ends of the two worm wheel placing rods 138 are movably connected with the fixed frame 134, the two worm wheels 137 are respectively arranged on the worm wheel placing rods 138, the two worm wheels 137 are both meshed with the worm 136, the two clamps 139 are respectively arranged on the worm wheel placing rods 138, and the two rubber protective layers 1310 are respectively arranged on the clamps 139; the vertical driving part 11 can drive the clamping part 13 to vertically move through the connection of the threaded rod 131 and the threaded pipe 1112, the worm 136 can drive the two worm gears 137 to rotate through the driving of the third motor 133, the worm gear 137 can be driven to rotate when rotating, the worm gear placing rod 138 can be driven to rotate through the worm gear placing rod 138, the third motor 133 can drive the worm 136 to clockwise rotate, the two clamps 139 can be opened, an air-conditioning copper pipe can be placed in the clamps 139, the two clamps 139 can be closed when the third motor 133 drives the worm 136 to counterclockwise rotate, the air-conditioning copper pipe can be fixed by the clamps 139, and the air-conditioning copper pipe can be protected from being damaged on the surface of the air-conditioning copper pipe due to the connection with the clamps 139 through the rubber protective layer 1310 arranged on the clamps 139; the clamping part 13 can complete the fixing operation of the air-conditioning copper pipe through the connection and the matching, so that the welding mechanism 2 can ensure that the air-conditioning copper pipe cannot deviate when the air-conditioning copper pipe is welded;

specifically, the welding mechanism 2 includes a welding driving part 21 and a welding operation part 22, the welding driving part 21 is disposed on one side of the second placing box 121, and the welding operation part 22 is disposed on the welding driving part 21; the welding operation part 22 can be moved horizontally by the welding driving part 21, and the welding operation part 22 can be adjusted to a proper position to weld the air-conditioning copper pipe.

Specifically, the welding driving part 21 includes a fixing plate 211, a second fixing pile 212, a third moving rod 213, an electric push rod 214, a third connecting frame 215, and a second gear 216, the fixing plate 211 is disposed below the first placing box 111, the fixing plate 211 is disposed at one side of the second placing box 121, four second fixing piles 212 are disposed, the four second fixing piles 212 are symmetrically disposed at two ends of one side of the second placing box 121, the third moving rod 213 is disposed in the second fixing pile 212, tooth sockets are disposed on the fixing plate 211 and the third moving rod 213, the second gear 216 is respectively engaged with the tooth sockets disposed on the third moving rod 213 and the fixing plate 211, the electric push rod 214, the third connecting frame 215, and the second gear 216 are disposed between the fixing plate 211 and the third moving rod 213, an output end of the electric push rod 214 is connected to one end of the third connecting frame 215, the other end of the third connecting frame 215 penetrates through the second gear 216, the other end of the third connecting frame 215 is movably connected with the second gear 216, and the third moving rod 213 is connected with the welding operation part 22; during operation, the third connecting frame 215 can be moved by the electric push rod 214, the third connecting frame 215 can push the second gear 216 to move, the second gear 216 can be limited by the tooth socket arranged on the fixing plate 211 when moving, so that the second gear 216 rotates, the second gear 216 rotates to drive the third moving rod 213 to move, and the welding operation component 22 is driven to synchronously move when the third moving rod 213 moves; the welding driving part 21 can drive the welding operation part 22 to move horizontally through the connection and matching, and the position adjustment required when the operation is completed is achieved.

Specifically, the welding operation component 22 includes a second connecting rod 221, a connecting base 222, a fixed disk 223, a movable disk 224, a fixed connecting frame 225, a movable frame 226, and a welding gun 227, where the second connecting rod 221 is disposed on the connecting base 222, the second connecting rod 221 is connected to the third moving rod 213, the connecting base 222 is disposed below the second placing box 121 at intervals, the movable disk 224 is disposed below the connecting base 222, the movable disk 224 is disposed above the fixed connecting frame 225, the movable disk 224 is movably connected to the fixed disk 223, two movable frames 226 are disposed, the two movable frames 226 are symmetrically disposed in the fixed connecting frame 225, both the movable frames 226 are movably connected to the fixed connecting frame 225, and the welding gun 227 is disposed in the two movable frames 226; when carrying out the operation, can make welding drive part 21 drive welding operation part 22 through second connecting rod 221 and carry out horizontal migration, can reduce the problem that welding gun 227 left over or lost on equipment through setting up welding gun 227, welding gun 227 needs manual operation, can make welding gun 227 rotate through being connected of fixed disc 223 and activity disc 224, can make welding gun 227 carry out the regulation of angle through being connected of adjustable shelf 226 and fixed connection frame 225, thereby can accomplish the welding of welding gun 227 to air conditioner copper pipe, the problem of welding gun 227 setting on equipment influence operation has been solved.

The working method of the welding system for the air-conditioning refrigeration copper pipe comprises the following steps:

s1: the first placing box 111 can be fixed by installation or by manual fixing according to actual needs, when the air-conditioning copper pipe needs to be fixed, the two air conditioners are respectively placed into the clamp 139 for fixing, the worm 136 can drive the two worm wheels 137 to rotate by the driving of the third motor 133, the worm wheels 137 can drive the worm wheel placing rod 138 to rotate when rotating, the worm wheel placing rod 138 can drive the clamp 139 to rotate, the third motor 133 can drive the worm 136 to rotate clockwise to open the two clamps 139, the air-conditioning copper pipe can be placed in the clamp 139, the third motor 133 can drive the worm 136 to rotate anticlockwise to close the two clamps 139, the clamp 139 can fix the air-conditioning copper pipe, and the rubber protective layer 1310 arranged on the clamp 139 can protect the air conditioner from damage to the surface of the air conditioner copper pipe due to the connection with the clamp 139.

S2: after the position of the air-conditioning copper pipe is fixed, the first motor 112 is driven to drive the driving connecting rod 113 to drive the first belt pulley 114 to rotate, the first belt pulley 114 drives the second belt pulley 115 to rotate through the connecting belt 116, the hollow rotating rod 117 can synchronously rotate due to the rotation of the second belt pulley 115, the first connecting rod 118 can be fixedly connected with the hollow rotating rod 117 when the fixing bolt 119 is locked, and when the fixing bolt 119 is not locked, the first connecting rod 118 can be positioned in the hollow rotating rod 117 and not connected, the hollow rotating rod 117 can drive the two first connecting rods 118 to rotate by locking the fixing bolt 119, the two first connecting rods 118 respectively drive the first bevel gear set 1110 and the second bevel gear set 1111 to rotate, two threaded pipes 1112 can be rotated through a first bevel gear set 1110 and a second bevel gear set 1111, and the connection between the threaded rods 131 and the threaded pipes 1112 can be vertically moved by the third placing box 132; the vertical movement of the gripper 139 can be performed by the above-described movement.

S3: after the clamp is vertically moved to a determined position, the second gear 216 is driven by the second motor 122 to rotate, the first moving rod 125 and the second moving rod 126 can be moved by the second gear 216, the first moving rod 125 and the second moving rod 126 move in opposite directions when moving simultaneously, the first connecting frame 127 and the second connecting frame 128 can be moved in opposite directions by the first moving rod 125 and the second moving rod 126, and the two first moving rods 125 and the two threaded pipes 1112 can be moved synchronously by the first connecting frame 127 and the second connecting frame 128; through the connection cooperation, the clamp 139 can move in the vertical direction and the horizontal direction, so that the clamp 139 can be adjusted according to the position of the air-conditioning copper pipe, and the problem that the welding equipment in the prior art cannot effectively fix the air-conditioning copper pipe according to the position of the air-conditioning copper pipe can be solved.

S4: after the position of the air-conditioning copper pipe is fixed, the position of a welding gun is firstly adjusted, the third connecting frame 215 can move through the electric push rod 214, the third connecting frame 215 can push the second gear 216 to move, the second gear 216 can be limited by a tooth socket arranged on the fixing plate 211 when moving, the second gear 216 rotates to drive the third moving rod 213 to move, and the third moving rod 213 drives the second connecting rod 221 to horizontally move when moving; the position of the welding gun can be adjusted through the above method, so that the welding gun corresponds to the position where the air-conditioning copper pipe needs to be welded.

S5: after the position of the welding gun is adjusted, the welding gun 227 needs to be manually operated, the welding gun 227 is arranged on equipment, the problem that the welding gun 227 is left over or lost can be solved, the welding gun 227 can rotate through the connection of the fixed disc 223 and the movable disc 224, the welding gun 227 can be adjusted in angle through the connection of the movable frame 226 and the fixed connecting frame 225, so that the welding of the welding gun 227 on an air-conditioning copper pipe can be completed, and the problem that the welding gun 227 is arranged on the equipment to influence the operation is solved; the welding operation of the welding gun on the air conditioner copper pipe can be completed through the welding gun.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, those skilled in the art will appreciate that; the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. The utility model provides a welding system for air conditioner refrigeration copper pipe, its characterized in that includes fixed establishment (1) and welding mechanism (2), welding mechanism (2) set up on fixed establishment (1), fixed establishment (1) portability, fixed establishment (1) is fixed or artifical fixed according to actual position.

2. A welding system for copper tubes used for air conditioning and refrigeration according to claim 1, characterized in that the fixing mechanism (1) comprises a vertical driving part (11), a horizontal driving part (12) and clamping parts (13), the horizontal driving part (12) is arranged below the vertical driving part (11), two groups of clamping parts (13) are arranged, two groups of clamping parts (13) are symmetrically arranged below the vertical driving part (11), and the horizontal driving part (1) is connected with the vertical driving part (11).

3. The welding system for copper pipes for air conditioning and refrigeration of claim 2, wherein the vertical driving component (11) comprises a first placing box (111), a first motor (112), a driving connecting rod (113), a first belt pulley (114), a second belt pulley (115), a connecting belt (116), a hollow rotating rod (117), a first connecting rod (118), a fixing bolt (119), a first bevel gear set (1110), a second bevel gear set (1111) and a threaded pipe (1112), wherein the first motor (112), the driving connecting rod (113), the first belt pulley (114), the second belt pulley (115), the connecting belt (116), the hollow rotating rod (117), the first connecting rod (118), the fixing bolt (119), the first bevel gear set (1110), the second bevel gear set (1111) and the threaded pipe (1112) are all arranged in the first placing box (111), the output end of the first motor (112) is connected with the drive connecting rod (113), the first belt pulley (114) is arranged on the drive connecting rod (113), the hollow rotating rod (117) is arranged on one side of the drive connecting rod (113), the second belt pulley (115) is arranged on the hollow rotating rod (117), the connecting belt (116) is arranged on the first belt pulley (114) and the second belt pulley (115), the first connecting rod (118) and the fixing bolt (119) are both provided with two ends, two ends of the first connecting rod (118) are symmetrically arranged on two sides of the hollow rotating rod (117), and two ends of the first connecting rod (118) are both arranged in the hollow rotating rod (117), two ends of the fixing bolt (119) are symmetrically arranged on the hollow rotating rod (117), one end of the other end of the first connecting rod (118) is connected with one end of the first bevel gear set (1110), the other end of the other first connecting rod (118) is connected with one end of a second bevel gear set (1111), the number of the thread pipes (1112) is two, the two thread pipes (1112) are respectively arranged below the first bevel gear set (1110) and the second bevel gear set (1111), the bottom ends of the two thread pipes (1112) penetrate through the first placing box (111) and extend out, and the two thread pipes (1112) are connected with the clamping component (13).

4. The welding system for air-conditioning refrigeration copper pipe according to claim 3, wherein the horizontal driving component (12) comprises a second placing box (121), a second motor (122), a first gear (123), a first fixed pile (124), a first moving rod (125), a second moving rod (126), a first connecting frame (127) and a second connecting frame (128), the second placing box (121) is arranged below the first placing box (111), the second motor (122), the first gear (123), the first fixed pile (124), the first moving rod (125), the second moving rod (126), the first connecting frame (127) and the second connecting frame (128) are all arranged in the second placing box (121), the output end of the second motor (122) is connected with the first gear (123), the first fixed piles (124) are four, the four first fixing piles (124) are symmetrically arranged in the second placing box (121) in pairs, tooth grooves are formed in the first moving rod (125) and the second moving rod (126), the first moving rod (125) and the second moving rod (126) are symmetrically arranged on two sides in the second placing box (121), the first moving rod (125) and the second moving rod (126) are respectively located in the first fixing piles (124), the first gear (123) is arranged between the two second moving rods (126), the first gear (123) is respectively engaged with the tooth grooves in the two second moving rods (126), the first connecting frames (127) and the second connecting frames (128) are symmetrically arranged in the second placing box (121), the first connecting frames (127) and the second connecting frames (128) are respectively located on two sides of the first fixing piles (124), one of the second moving rods (126) is connected with the first connecting frame (127), the other second moving rod (126) is connected with a second connecting frame (128), the first connecting frame (127) is respectively connected with one first connecting rod (118) and one threaded pipe (1112), and the second connecting frame (128) is respectively connected with the other first connecting rod (118) and the other threaded pipe (1112).

5. The welding system for air-conditioning refrigeration copper pipe according to claim 3, wherein each group of the clamping parts (13) comprises a threaded rod (131), a third placing box (132), a third motor (133), a fixing frame (134), a protection plate (135), a worm (136), a worm wheel (137), a worm wheel placing rod (138), a clamp (139) and a rubber protection layer (1310), the threaded rod (131) is arranged above the third placing box (132), the threaded rod (131) is connected with a threaded pipe (1112), the third motor (133) is arranged in the third placing box (132), the fixing frame (134) is arranged below the third placing box (132), the protection plate (135) is arranged at the bottom end in the fixing frame (134), and the worm wheel (136), the worm wheel (137) and the worm wheel placing rod (138) are all arranged in the fixing frame (134), worm (136), worm wheel (137) and worm wheel place pole (138) and all are located the top of guard plate (135), the output and worm (136) of third motor (133) are connected, worm wheel (137), worm wheel are placed pole (138), anchor clamps (139) and rubber protective layer (1310) and all are equipped with two, two the worm wheel is placed pole (138) symmetry and is set up in the both sides of worm (136), and two the both ends and mount (134) swing joint that pole (138) were placed to the worm wheel, two worm wheel (137) set up respectively on pole (138) is placed to the worm wheel, two worm wheel (137) all mesh with worm (136), two anchor clamps (139) set up respectively on pole (138) is placed to the worm wheel, two rubber protective layer (1310) sets up respectively on anchor clamps (139).

6. A welding system for copper tubes for air conditioning refrigeration according to claim 4, characterized in that the welding mechanism (2) comprises a welding driving part (21) and a welding operation part (22), the welding driving part (21) is arranged on one side of the second placing box (121), and the welding operation part (22) is arranged on the welding driving part (21).

7. The welding system for the air-conditioning refrigeration copper pipe according to claim 6, wherein the welding driving part (21) comprises a fixed plate (211), a second fixed pile (212), a third moving rod (213), an electric push rod (214), a third connecting frame (215) and a second gear (216), the fixed plate (211) is arranged below the first placing box (111), the fixed plate (211) is arranged on one side of the second placing box (121), the number of the second fixed piles (212) is four, the four second fixed piles (212) are symmetrically arranged at two ends of one side of the second placing box (121), the third moving rod (213) is arranged in the second fixed pile (212), the fixed plate (211) and the third moving rod (213) are respectively provided with a tooth socket, and the second gear (216) is respectively meshed with the third moving rod (213) and the fixed plate (211), the electric push rod (214), the third connecting frame (215) and the second gear (216) are arranged between the fixing plate (211) and the third moving rod (213), the output end of the electric push rod (214) is connected with one end of the third connecting frame (215), the other end of the third connecting frame (215) penetrates through the second gear (216), the other end of the third connecting frame (215) is movably connected with the second gear (216), and the third moving rod (213) is connected with the welding operation part (22).

8. The welding system for air-conditioning and refrigerating copper pipe as recited in claim 7, wherein said welding operation component (22) comprises a second connecting rod (221), a connecting base (222), a fixed disk (223), a movable disk (224), a fixed connecting frame (225), a movable frame (226) and a welding gun (227), said second connecting rod (221) is disposed on the connecting base (222), said second connecting rod (221) is connected with a third moving rod (213), said connecting base (222) is disposed under the second placing box (121) at intervals, said movable disk (224) is disposed under the connecting base (222), said movable disk (224) is disposed above the fixed connecting frame (225), said movable disk (224) is movably connected with the fixed disk (223), said movable frame (226) is provided with two, two said movable frames (226) are symmetrically disposed in the fixed connecting frame (225), two adjustable shelf (226) all with fixed connection frame (225) swing joint, welding rifle (227) set up in two adjustable shelves (226).

9. A method of operating a welding system for air conditioning copper tubing as claimed in any one of claims 1 to 8, comprising the steps of:

s1: first place case (111) can install fixedly or through manual fixed according to actual need, when needs fix the air conditioner copper pipe, fix two air conditioners through putting into anchor clamps (139) respectively, can make worm (136) drive two worm wheels (137) and rotate through the drive of third motor (133), worm wheel (137) can be driven when rotating and worm wheel (138) are placed and pole (138) are placed and can be driven anchor clamps (139) rotate through the worm wheel, can make two anchor clamps (139) open when third motor (133) drive worm (136) clockwise, can place the air conditioner copper pipe in anchor clamps (139) this moment, can make two anchor clamps (139) close when third motor (133) drive worm (136) anticlockwise rotation, anchor clamps (139) can fix the air conditioner copper pipe this moment, and can protect the air conditioner through rubber inoxidizing coating (1310) that sets up on anchor clamps (139) can not because of passing through with anchor clamps (139) 139) The connection of (2) causes damage to the surface of the air-conditioning copper pipe,

s2: after the position of the air-conditioning copper pipe is fixed, the first belt pulley (114) is driven by the first motor (112) to drive the first connecting rod (113) to drive the first belt pulley (114) to rotate, the first belt pulley (114) is driven by the second belt pulley (115) to rotate through the connecting belt (116), the hollow rotating rod (117) can be synchronously rotated by the rotation of the second belt pulley (115), the first connecting rod (118) and the hollow rotating rod (117) can be fixedly connected when the fixing bolt (119) is locked, the first connecting rod (118) can be positioned in the hollow rotating rod (117) and is not connected when the fixing bolt (119) is not locked, the hollow rotating rod (117) can drive the two first connecting rods (118) to rotate through the locking of the fixing bolt (119), the two first connecting rods (118) respectively drive the first bevel gear set (1110) and the second bevel gear set (1111) to rotate, two threaded pipes (1112) can be rotated through a first bevel gear set (1110) and a second bevel gear set (1111), and the connection between the threaded rod (131) and the threaded pipes (1112) can be vertically moved through a third placing box (132); the clamp (139) can move vertically through the above;

s3: after the clamp is vertically moved to a determined position, a second gear (216) is driven by a second motor (122) to rotate, a first movable rod (125) and a second movable rod (126) can be moved through the second gear (216), the first movable rod (125) and the second movable rod (126) move in opposite directions when moving simultaneously, a first connecting frame (127) and a second connecting frame 128 can move in opposite directions through the first movable rod (125) and the second movable rod (126), and the two first movable rods (125) and two threaded pipes (1112) can move synchronously through the first connecting frame (127) and the second connecting frame 128; the fixture (139) can move in the vertical direction and the horizontal direction through the connection and the matching, so that the fixture (139) can be adjusted according to the position of the air-conditioning copper pipe, and the problem that the welding equipment in the prior art cannot effectively fix the air-conditioning copper pipe according to the position of the air-conditioning copper pipe can be solved;

s4: after the air-conditioning copper pipe is fixed in position, the position of a welding gun is adjusted, a third connecting frame (215) can be moved through an electric push rod (214), the third connecting frame (215) can push a second gear (216) to move, the second gear (216) can be limited by a tooth socket arranged on a fixing plate (211) when moving, the second gear (216) can rotate, the second gear (216) can drive a third moving rod (213) to move when rotating, and the third moving rod (213) can drive a second connecting rod (221) to move horizontally when moving; the position of the welding gun can be adjusted to enable the welding gun to correspond to the position of the air-conditioning copper pipe to be welded;

s5: after the position adjustment of the welding gun is completed, the welding gun (227) needs to be manually operated, the welding gun (227) is arranged on equipment, the problem that the welding gun (227) is left over or lost can be solved, the welding gun (227) can be rotated through the connection of the fixed disc (223) and the movable disc (224), the welding gun (227) can be adjusted in angle through the connection of the movable frame 226 and the fixed connecting frame 225, so that the welding of the welding gun (227) on an air-conditioning copper pipe can be completed, and the problem that the welding gun (227) is arranged on the equipment to influence the operation is solved; the welding operation of the welding gun on the air conditioner copper pipe can be completed through the welding gun.

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