CN214236799U - Static contact spring leaf supply structure of protector static contact welding machine - Google Patents

Abstract

A static contact spring leaf supply structure of a protector static contact welding machine is characterized in that the motor starting protector static contact welding machine comprises a workbench and a static contact spring leaf welding supporting mechanism, a workbench supporting box is arranged below the workbench, a central supporting frame is arranged on one side, facing upwards, of the workbench, and a workpiece leading-out groove is formed in the left side of the central supporting frame; the static contact spring piece supply structure comprises a static contact spring piece conveying mechanism, a static contact spring piece guiding and crossing mechanism and a static contact spring piece left and right pushing and positioning mechanism, the static contact spring piece conveying mechanism is arranged on a workbench corresponding to the left position of a static contact spring piece welding and supporting mechanism, the static contact spring piece guiding and crossing mechanism is arranged on the front side of the central supporting frame, the static contact spring piece left and right pushing and positioning mechanisms are arranged on the rear side of the central supporting frame, and the static contact spring piece left pushing and positioning mechanism is located above the static contact spring piece right pushing and positioning mechanism. The requirement of welding the static contact with the static contact spring piece in a limited state is met; the daily maintenance is convenient.

Description

Static contact spring leaf supply structure of protector static contact welding machine

Technical Field

The utility model belongs to the technical field of electric parts automatic weld equipment, concretely relates to static contact spring leaf supply structure of protector static contact welding machine.

Background

The motor start protector mentioned above is a motor start protector of a refrigeration compressor, which is also commonly referred to as a single-phase ac motor overload protector of the refrigeration compressor, and the motor start protector of the refrigeration compressor has the function of providing effective protection for temperature over-temperature overload of the single-phase ac motor, and the structure thereof can be found in a large number of published chinese patent documents, such as CN2218263Y (self-protection refrigeration compressor thermal protector), CN2287339Y (refrigeration compressor motor protector), CN1207743C (thermal protector), CN2341305Y (current-temperature composite motor protector), and CN100356652C (overload protector of the single-phase ac motor), and so on. It is known from a reading of the patent literature, not limited to the above, in particular from a reading of CN100356652C, combined with the common general knowledge: when a movable contact on a movable contact spring leaf (also called a movable contact spring leaf, the same below) is in contact with a static contact on a static contact spring leaf (also called a static contact spring leaf or a static pin spring leaf, the same below), namely when the movable contact and the static contact are closed, an electric circuit is connected, otherwise, the same example is adopted, so that the function of protecting a compressor motor, namely the function of protecting a single-phase alternating current motor is achieved, and in this regard, the figure 3 of the specification attached drawing of CN104734570A (a non-power-consumption energy-saving single-phase alternating current motor starting protector) can be also referred.

The prior art usually welds the static contact and the static contact spring piece by a worker in a manual mode, namely welds the static contact to the static contact spring piece, and the operation mode has been used for a long time and is self-proved to be 'slow work fine work', but the following technical problems are objectively existed: firstly, because the static contact spring leaf is relatively narrow, and because the static contact is small and the beads are small, the positioning and corresponding difficulty in the welding process is relatively high, and the welding difficulty is also high, so that the welding operation intensity of a welding worker is high, and the spirit is always in a highly tense state; secondly, because the manual welding efficiency is low, the manual welding can only be satisfied by greatly increasing the number of post workers, so that manufacturers are really very difficult at present when the labor resources are generally in shortage; thirdly, the recruitment of a large number of welding workers not only causes precious labor resource waste, but also is not beneficial to saving the labor of the product, namely the labor cost, and finally the cost is transferred to the protector product, so that the protector product is lost and is low in price; fourthly, the quality of manual welding is related to experience, responsibility, psychological factors, emotional factors and the like of workers to a certain extent, so that the welding quality can not meet relatively uniform standard requirements, and even the probability of unqualified welding is relatively high. It goes without saying that the problems not limited to the above mentioned ones can be readily solved if welding machines are used which are structurally sound, easy to operate and have good automation efficiency and guarantee the quality of the weld. However, if the static contact and the static contact spring piece are to be welded automatically, the static contact spring piece needs to be conveyed smoothly by the static contact conveying mechanism with a reasonable structure, and the static contact spring piece needs to be taken by the static contact spring piece guiding mechanism (i.e. the transfer mechanism) with a reasonable structure and then transferred to a position required by the process after being taken, and the static contact spring piece introduced by the static contact spring piece guiding mechanism needs to be pushed to a station where the static contact spring piece supporting mechanism as a welding platform is located by the static contact pushing and positioning mechanism with a reasonable structure, otherwise, the static contact spring piece is difficult to be welded with the static contact spring piece or even cannot be welded with the static contact spring piece. For this reason, the applicant has made a literature search, but there is no technical teaching that helps solve the aforementioned technical elements in both the externally applied patent and non-patent documents disclosed so far, and the technical solutions to be described below have been made in such a background.

SUMMERY OF THE UTILITY MODEL

The task of the utility model is to provide a help will wait to weld the stationary contact spring leaf of stationary contact and carry smoothly to the position that the stationary contact spring leaf draws the ferry mechanism place and make the stationary contact spring leaf draw the ferry mechanism to connect and obtain and shift to the stationary contact spring leaf supply structure that can satisfy the protector stationary contact welding machine of welding requirement by stationary contact spring leaf propelling movement to the station at the stationary contact spring leaf welding supporting mechanism place as welded platform and with the stationary contact spring leaf location at this station after connecing to obtain.

The utility model discloses a task is accomplished like this, a static contact spring leaf feeding structure of protector static contact welding machine, protector static contact welding machine include a workstation and a static contact spring leaf welding supporting mechanism, the shape of workstation is the cuboid and has a workstation supporting box that supplies to set up electrical control part in the below of this workstation, be fixed with central supporting rack with longitudinal condition in workstation one side up and the central point that is located the workstation, be fixed with a work piece derivation groove in the left side of this central supporting rack, the cross sectional shape of this work piece derivation groove is the U font and from the position of central supporting rack towards keeping away from the direction downward sloping of central supporting rack, static contact spring leaf welding supporting mechanism sets up the upper portion of central supporting rack; the static contact spring piece supply structure comprises a static contact spring piece conveying mechanism, a static contact spring piece guiding and crossing mechanism, a static contact spring piece left pushing and positioning mechanism and a static contact spring piece right pushing and positioning mechanism, wherein the static contact spring piece conveying mechanism is arranged on the workbench at a position corresponding to the left side of the static contact spring piece welding and supporting mechanism, the static contact spring piece guiding and crossing mechanism is arranged on the front side of the central supporting frame and matched with the static contact spring piece welding and supporting mechanism, the static contact spring piece left pushing and positioning mechanism and the static contact spring piece right pushing and positioning mechanism are arranged on the rear side of the central supporting frame and correspond to the static contact spring piece welding and supporting mechanism, and the static contact spring piece left pushing and positioning mechanism is positioned above the static contact spring piece right pushing and positioning mechanism and the setting direction on the central supporting frame is opposite to the setting direction of the static contact spring piece right pushing and positioning mechanism.

In a specific embodiment of the present invention, a central support frame rear step, a central support frame middle step and a central support frame top step are sequentially formed on the upper portion of the central support frame of the worktable from back to front and from low to high; the static contact spring piece welding supporting mechanism is arranged on the rear step of the central supporting frame; the left static contact spring piece pushing and positioning mechanism and the right static contact spring piece pushing and positioning mechanism correspond to the rear side of the right end of the static contact spring piece conveying mechanism; the static contact spring piece ferrying mechanism is arranged on the front side of the central supporting frame at a position corresponding to the top step of the central supporting frame.

In another specific embodiment of the present invention, the welding and supporting mechanism for the stationary contact spring leaf comprises a stationary contact spring leaf pressing plate lifting acting cylinder, a stationary contact spring leaf lifting plate, a stationary contact spring leaf supporting plate, a stationary contact spring leaf limiting block, a stationary contact spring leaf pressing plate lifting acting cylinder base, a stationary contact spring leaf guiding plate supporting base, a stationary contact spring leaf guiding plate left baffle and a stationary contact spring leaf guiding plate right baffle, the stationary contact spring leaf pressing plate lifting acting cylinder base is fixed at the rear of the upper portion of the central supporting base and is contacted with the lower portion of the right side of the rear end of the stationary contact spring leaf guiding plate right baffle, a stationary contact spring leaf pressing plate lifting acting cylinder supporting step cavity is formed at one side of the stationary contact spring leaf pressing plate lifting acting cylinder base facing upward and at the position corresponding to the stationary contact spring leaf pressing plate lifting acting cylinder, the static contact spring leaf pressure plate lifting acting cylinder is arranged on a static contact spring leaf pressure plate lifting acting cylinder seat at a position corresponding to a static contact spring leaf pressure plate lifting acting cylinder supporting step cavity, a static contact spring leaf pressure plate lifting acting cylinder column of the static contact spring leaf pressure plate lifting acting cylinder faces upwards and is fixed with a static contact spring leaf pressure plate lifting acting cylinder column push block, the rear end of a static contact spring leaf lifting acting plate is fixed with the upper part of the static contact spring leaf pressure plate lifting acting cylinder column push block, the front end of the static contact spring leaf lifting acting plate extends to the rear upper part of a static contact spring leaf supporting disc, a static contact through hole is formed in the middle of the front end of the static contact spring leaf lifting acting plate, the static contact spring leaf supporting disc is fixed on the static contact spring leaf supporting disc seat through a supporting disc fixing hole formed in the central position of the static contact spring leaf supporting disc, and a position structure corresponding to the rear side of the static contact spring leaf supporting disc is formed on the upward side of the static contact spring leaf supporting disc A limiting block fixing cavity is formed, a stack edge extending upwards is formed at the rear side edge of the limiting block fixing cavity, a static contact spring leaf limiting block is fixed in the limiting block fixing cavity at the position corresponding to the front of the stack edge and in a state of being parallel to the stack edge, the space between the static contact spring leaf limiting block and the stack edge is formed into a static contact spring leaf welding station sliding groove a, a static contact spring leaf guide transition plate supporting seat is fixed with the central supporting frame rear step at the position corresponding to the left side of a static contact spring leaf pressure plate lifting acting cylinder seat, a static contact spring leaf guide plate left baffle plate and a static contact spring leaf guide plate right baffle plate are fixed on the static contact spring leaf guide plate supporting seat in a state of corresponding left and right, and the right side surface of the static contact spring leaf guide plate right baffle plate is simultaneously attached to the left side surface of the static contact spring leaf supporting plate seat and the left side surface of the static contact spring leaf lifting acting cylinder, a space between the left baffle and the right baffle of the static contact spring piece ferry plate is formed into a sliding groove of the static contact spring piece ferry plate, a bearing gap of a static contact spring piece conveying guide rail is formed in the upward direction of the rear end of the left baffle of the static contact spring piece ferry plate, and a right baffle spring piece ferry groove is formed in the upper part of the rear end of the right baffle of the static contact spring piece ferry plate and at a position corresponding to the sliding groove of the welding station of the static contact spring piece; the static contact spring piece conveying mechanism is arranged on the workbench at a position corresponding to the left side of the left baffle of the static contact spring piece ferry plate, and the right end of the static contact spring piece conveying mechanism extends to the supporting gap of the static contact spring piece conveying guide rail; the left pushing and positioning mechanism of the static contact spring piece is in sliding fit with the transition groove of the right baffle spring piece and is in sliding fit with the left end of the sliding groove of the welding station of the static contact spring piece after passing through the transition groove of the right baffle spring piece; the right pushing and positioning mechanism of the static contact spring piece is in sliding fit with the right end of the sliding groove of the welding station of the static contact spring piece; the static contact spring piece ferrying mechanism which is arranged at the front side of the central supporting frame corresponding to the top step of the central supporting frame is in sliding fit with the sliding groove of the static contact spring piece ferrying plate.

In another specific embodiment of the present invention, the fixed contact spring plate transfer mechanism comprises a fixed contact spring plate transfer rail vibrator and a fixed contact spring plate transfer rail, the fixed contact spring plate transfer rail vibrator is disposed on the table at a position corresponding to the left side of the fixed contact spring plate ferry plate left baffle, the middle portion of the fixed contact spring plate transfer rail is supported and limited on the top portion of the fixed contact spring plate transfer rail vibrator, the right end of the fixed contact spring plate transfer rail extends to the fixed contact spring plate ferry plate left baffle and is supported on the fixed contact spring plate transfer rail support gap, a fixed contact spring leaf guiding sliding groove is arranged on the upward side of the fixed contact spring leaf conveying guide rail and along the length direction of the fixed contact spring leaf conveying guide rail, the static contact spring piece guiding sliding groove is communicated with the static contact spring piece ferry plate sliding groove; the left static contact spring piece pushing and positioning mechanism and the right static contact spring piece pushing and positioning mechanism correspond to the rear side of the right end of the static contact spring piece conveying guide rail; the static contact spring piece ferry mechanism which is arranged at the front side of the central supporting frame corresponding to the position of the top step of the central supporting frame alternately displaces between the right end port of the static contact spring piece guiding sliding groove and the right baffle spring piece ferry groove which is arranged at the upper part of the rear end of the right baffle of the static contact spring piece ferry plate; the width and the depth of the transition groove of the right baffle spring piece are the same as those of the sliding groove of the welding station of the static contact spring piece.

In still another embodiment of the present invention, the left stationary contact spring leaf pushing and positioning mechanism comprises a left stationary contact spring leaf pushing and positioning cylinder, a left stationary contact spring leaf pushing and positioning rod fixing plate, and a left stationary contact spring leaf pushing and positioning rod, the left stationary contact spring leaf pushing and positioning cylinder is fixed to the rear side of the upper end of the central support frame in a horizontally horizontal position at a position above the right stationary contact spring leaf pushing and positioning mechanism, and the left stationary contact spring leaf pushing and positioning cylinder is toward the left, the left stationary contact spring leaf pushing and positioning rod fixing plate is fixed to the front side of the left stationary contact spring leaf pushing and positioning cylinder block, and the left end of the left stationary contact spring leaf pushing and positioning cylinder block is connected to the left end of the left stationary contact spring leaf pushing and positioning cylinder block, the left stationary contact spring leaf pushing and positioning rod is fixed to the front side of the left stationary contact spring leaf pushing and positioning rod fixing plate in a horizontal position, the left pushing rod of the static contact spring piece faces to the right and corresponds to the left side of the right baffle spring piece transition groove at the rear part of the right baffle of the static contact spring piece transition plate.

In still another embodiment of the present invention, the right stationary contact spring piece pushing and positioning mechanism comprises a right stationary contact spring piece pushing cylinder, a right stationary contact spring piece pushing rod base fixing plate, a right stationary contact spring piece pushing rod base and a right stationary contact spring piece pushing rod, the right stationary contact spring piece pushing cylinder is fixed to the rear side of the upper end of the central support frame in a horizontally-lying state at a position below the left stationary contact spring piece pushing cylinder, and the right stationary contact spring piece pushing cylinder is oriented to the right, the right stationary contact spring piece pushing rod base fixing plate is fixed to the front side of the right stationary contact spring piece pushing cylinder block of the right stationary contact spring piece pushing cylinder, and the right end of the right stationary contact spring piece pushing cylinder block is connected to the right end of the right stationary contact spring piece pushing cylinder block, the lower end of the right pushing rod seat of the static contact spring piece is fixed with the front side of the right pushing action cylinder sliding block of the static contact spring piece, the upper end of the right pushing rod seat of the static contact spring piece extends out of the upper edge of the fixed plate of the right pushing rod seat of the static contact spring piece, the right pushing rod of the static contact spring piece is fixed with the upper end of the right pushing rod seat of the static contact spring piece in a horizontal state, and the direction of the right pushing rod of the static contact spring piece faces to the left and corresponds to the sliding groove of the welding station of the static contact spring piece.

In a more specific embodiment of the present invention, the stationary contact spring piece guiding mechanism includes a stationary contact spring piece guiding cab traction cylinder and a stationary contact spring piece guiding cab, the stationary contact spring piece guiding cab traction cylinder is fixed on the front side of the operating cylinder supporting bracket fixing plate, the operating cylinder supporting bracket fixing plate is fixed on the front side of the central supporting bracket at a position corresponding to the top step of the central supporting bracket, the stationary contact spring piece guiding cab column of the stationary contact spring piece guiding cab traction cylinder passes through the operating cylinder supporting bracket fixing plate backward and is connected with the front end face of the stationary contact spring piece guiding cab, and the stationary contact spring piece guiding cab is in sliding fit with the stationary contact spring piece guiding plate sliding groove at a position corresponding to the position between the stationary contact spring piece guiding plate left baffle and the stationary contact spring piece guiding plate right baffle, and one side of the rear end of the static contact spring piece guide plate facing upwards is provided with a guide plate static contact spring piece transition groove corresponding to the position of the right baffle spring piece transition groove.

The technical scheme provided by the utility model the technical effect lie in: the static contact spring piece conveying mechanism can smoothly convey the static contact spring piece to the position where the static contact spring piece guiding mechanism is located, the static contact spring piece which is conveyed by the static contact spring piece conveying mechanism is received by the static contact spring piece guiding mechanism and is transferred to the position where the technological requirement is met by the left pushing and positioning mechanism of the static contact spring piece after the static contact spring piece is received, and the static contact spring piece is pushed and limited to the position corresponding to the position where the static contact spring piece welding and supporting mechanism is located due to the synergistic effect of the left pushing and positioning mechanism and the right pushing and positioning mechanism of the static contact spring piece, so that the requirement that the static contact is welded between the position corresponding to the static contact spring piece welding and supporting mechanism and the static contact spring piece in the limited state can be met; the static contact spring piece welding supporting mechanism, the static contact spring piece conveying mechanism, the static contact spring piece left and right pushing and positioning mechanisms and the static contact spring piece guiding mechanism are reasonable in distribution position and relatively simple in structure, so that the static contact spring piece guiding mechanism can be used and maintained daily conveniently, is convenient to manufacture and is economical; because no human participation is needed in the action process, precious labor force resources can be saved, and the action process can embody good relay effect, thereby improving the working efficiency.

Drawings

Fig. 1 is a structural diagram of an embodiment of the present invention.

Fig. 2 is a detailed configuration diagram of the stationary contact transfer mechanism shown in fig. 1.

Fig. 3 is a detailed configuration diagram of the stationary contact spring piece welding support mechanism shown in fig. 1.

Fig. 4 is an enlarged view of a portion a of fig. 2.

Fig. 5 is a detailed configuration diagram of the left and right pushing and positioning mechanisms and the stationary contact receiving mechanism of the stationary contact spring piece shown in fig. 1 and 2.

Fig. 6 is a schematic view of a first position state of the stationary contact nozzle of the stationary contact transfer mechanism shown in fig. 1 to 2 and 4.

Fig. 7 is a schematic view of a second position state of the stationary contact suction nozzle of the stationary contact transfer mechanism shown in fig. 1 to 2 and 4.

Fig. 8 is a schematic view of the usage state of the present invention.

Detailed Description

In order to make the technical essence and advantages of the present invention more clear, the applicant below describes in detail the embodiments, but the description of the embodiments is not a limitation of the present invention, and any equivalent changes made according to the inventive concept, which are only formal and not essential, should be considered as the technical scope of the present invention.

In the following description, unless otherwise noted, all the concepts related to the directions or orientations of up, down, left, right, front and rear are based on the position state of fig. 1, and thus, should not be interpreted as a specific limitation to the technical solution provided by the present invention.

Referring to fig. 1 and 2, there are shown a table 1 and a stationary contact spring welding support mechanism 2 belonging to the structural system of a protector stationary contact welding machine, the table 1 being rectangular in shape and having a table support box 16 for arranging electrical control components below the table 1, a center support frame 11 being fixed in a longitudinal state at a side of the table 1 facing upward and substantially at the center position, i.e., the middle portion, of the table 1, a workpiece lead-out slot 15 being fixed at the left side of the center support frame 11, the workpiece lead-out slot 15 being U-shaped in cross section and inclined downward from the position of the center support frame 11 toward a direction away from the center support frame 11, the stationary contact spring welding support mechanism 2 being provided at the upper portion of the center support frame 11; a static contact spring piece conveying mechanism 3, a static contact spring piece guiding mechanism 7, a static contact spring piece left pushing and positioning mechanism 5 and a static contact spring piece right pushing and positioning mechanism 6 which show a static contact spring piece supply structure system and are taken as the technical key point category of the technical proposal provided by the utility model, the static contact spring piece conveying mechanism 3 is arranged on the worktable 1 at the position corresponding to the left side of the static contact spring piece welding and supporting mechanism 2, the static contact spring piece guiding mechanism 7 is arranged at the front side of the central supporting frame 11 and is matched with the static contact spring piece welding and supporting mechanism 2, the static contact spring piece left pushing and positioning mechanism 5 and the static contact spring piece right pushing and positioning mechanism 6 are arranged at the rear side of the central supporting frame 11 and are corresponding to the static contact spring piece welding and supporting mechanism 2, the left static contact spring piece pushing and positioning mechanism 5 is positioned above the right static contact spring piece pushing and positioning mechanism 6, and the arrangement direction of the left static contact spring piece pushing and positioning mechanism on the central support frame 11 is opposite to the arrangement direction of the right static contact spring piece pushing and positioning mechanism 6.

In fig. 1 and 2, a stationary contact spring piece 20 is shown, and the stationary contact spring piece 20 delivered by the aforementioned stationary contact spring piece conveying mechanism 3 is guided by the stationary contact spring piece guiding mechanism 7 to a position corresponding to the aforementioned stationary contact spring piece left pushing and positioning mechanism 5 and is pushed by the stationary contact spring piece left pushing and positioning mechanism 5 to a position corresponding to the upper side of the stationary contact spring piece welding and supporting mechanism 2, that is, to a position of a welding station.

Also shown in fig. 1 and 2 are a stationary contact conveying mechanism 4, a stationary contact receiving mechanism 8, a stationary contact transfer mechanism 9, and a bonding head operating mechanism 10, which still belong to the structural system of the protector stationary contact welding machine, the stationary contact conveying mechanism 4 being disposed on the table 1 in a state parallel to the front of the stationary contact spring piece conveying mechanism 3, and the right end of the stationary contact conveying mechanism 4 extending to the front corresponding to the stationary contact spring piece welding support mechanism 2, the stationary contact receiving mechanism 8 being similarly disposed on the front side of the center support frame 11 at a position corresponding to the right end of the stationary contact conveying mechanism 4, the stationary contact 30 delivered by the stationary contact conveying mechanism 4 and shown in fig. 2 being received by the stationary contact receiving mechanism 8, the stationary contact 30 of the stationary contact transfer mechanism 9 being used for transferring the stationary contact 30 received by the stationary contact receiving mechanism 8 to the stationary contact piece welding support mechanism 2 The stationary contact transfer mechanism 9 is provided on the table 1 at a position corresponding to the right side of the center support frame 11, and reciprocates between the stationary contact receiving mechanism 8 and the position above the stationary contact spring piece welding support mechanism 2, and the bonding head working mechanism 10 is provided on the table 1 at a position corresponding to the rear side of the stationary contact spring piece welding support mechanism 2 and also corresponds to the position above the stationary contact spring piece welding support mechanism 2 in an empty state.

In the following, the applicant carried out a systematic detailed description of the components of the structural architecture of the above-mentioned protector static contact welder and of the components of the static contact spring plate feeding structural architecture.

Referring to fig. 5 in conjunction with fig. 1 and 2, a center support frame rear step 111, a center support frame middle step 112 and a center support frame top step 113 are sequentially formed on the upper portion of the center support frame 11 of the work table 1 from rear to front and from low to high; the static contact spring piece welding and supporting mechanism 2 is arranged on the rear step 111 of the central supporting frame; the left static contact spring piece pushing and positioning mechanism 5 and the right static contact spring piece pushing and positioning mechanism 6 correspond to the rear side of the right end of the static contact spring piece conveying mechanism 3; the right end of the stationary contact point feed mechanism 4 extends to the center support frame top step 113; the stationary contact spring piece ferrying mechanism 7 and the stationary contact receiving mechanism 8 are provided on the front side of the center support frame 11 at positions corresponding to the center support frame top step 113.

Referring to fig. 3 to 4 in combination with fig. 1 to 2 and 5, the static contact spring plate welding and supporting mechanism 2 includes a static contact spring plate lifting and lowering cylinder 21, a static contact spring plate lifting and lowering plate 22, a static contact spring plate supporting plate 23, a static contact spring plate limiting block 24, a static contact spring plate lifting and lowering cylinder base 25, a static contact spring plate guide plate supporting base 26, a static contact spring plate guide plate left baffle 27 and a static contact spring plate guide plate right baffle 28, the static contact spring plate lifting and lowering cylinder base 25 is fixed to the rear of the upper portion of the central supporting frame 11, i.e., to the right of the central supporting frame rear step 111, and the static contact spring plate lifting and lowering cylinder base 25 contacts with the lower portion of the right side of the rear end of the static contact spring plate guide plate right baffle 28, and is located on the side of the static contact spring plate lifting and lowering cylinder base 25 facing upward and corresponding to the position of the static contact spring plate lifting and lowering cylinder 21 It has a stationary contact spring leaf pressure plate lift effect cylinder to support step chamber 251 (shown in fig. 3), stationary contact spring leaf pressure plate lift effect cylinder 21 sets up on stationary contact spring leaf pressure plate lift effect cylinder seat 25 at the position corresponding to stationary contact spring leaf pressure plate lift effect cylinder support step chamber 251, the stationary contact spring leaf pressure plate lift effect cylinder post of this stationary contact spring leaf pressure plate lift effect cylinder 21 is upwards and be fixed with stationary contact spring leaf pressure plate lift effect cylinder post ejector pad 211, the rear end of stationary contact spring leaf lift-down plate 22 is fixed with the upper portion of stationary contact spring leaf pressure plate lift effect cylinder post ejector pad 211, specifically be: the pair of pressing plate fixing holes 222 (shown in fig. 3) opened thereon are fixed to the stationary contact spring plate pressing plate lifting acting cylinder push block 211 at positions corresponding to cylinder holes 2111 preset in the stationary contact spring plate pressing plate lifting acting cylinder push block 211, and the fixing mode is not limited to any one of the following two modes: firstly, the static contact spring piece pressure plate lifting acting cylinder column (a pair of cylinder columns) of the static contact spring piece pressure plate lifting acting cylinder 21 is directly inserted into the cylinder column hole 2111 and the pressure plate fixing hole 222, so that the static contact spring piece pressure plate lifting acting cylinder column push block 211 and the static contact spring piece pressure plate lifting and dropping plate 22 are fixed with the static contact spring piece pressure plate lifting acting cylinder column; and secondly, the lifting cylinder column of the static contact spring leaf pressing plate is inserted into the cylinder column hole 2111, and then fixed with the lifting cylinder column of the static contact spring leaf pressing plate at the position corresponding to the pair of pressing plate fixing holes 222 by using a pressing plate connecting screw. The former is chosen by the present embodiment, but the latter or other similar means of attachment is not excluded. As shown in the figure, the front end of the static contact spring plate pressure and rise plate 22 extends to the rear upper side of the static contact spring plate support plate 23, and a static contact passing hole 221 is opened in the middle of the front end of the static contact spring plate pressure and rise plate 22, the static contact spring plate support plate 23 is fixed on the static contact spring plate support plate seat 232 through the support plate fixing hole 231 opened in the center position thereof, a limit block fixing chamber 233 is formed on the upward side of the static contact spring plate support plate seat 232 and at the position corresponding to the rear side of the static contact spring plate support plate 23, a stack edge 2331 extending upward is formed at the rear side edge part of the limit block fixing chamber 233, the static contact spring plate limit block 24 is fixed in the limit block fixing chamber 233 by a screw at the position corresponding to the front of the stack edge 2331 and in the state of being parallel to the stack edge 2331, the space between the static contact spring plate limit block 24 and the stack edge 2331 is formed as a static contact plate welding station sliding groove 29a, a stationary contact spring piece guide plate support base 26 is fixed to the center support base rear step 111 by a screw at a position corresponding to the left side of the stationary contact spring piece pressure plate lift action cylinder base 25, a stationary contact spring piece guide plate left baffle 27 and a stationary contact spring piece guide plate right baffle 28 are fixed to the stationary contact spring piece guide plate support base 26 in a state of being left-right corresponding to each other, and the right side surface of the stationary contact spring piece guide plate right baffle 28 is simultaneously brought into contact with the left side surface of the stationary contact spring piece support base 232 and the left side surface of the stationary contact spring piece pressure plate lift action cylinder 21, a space between the stationary contact spring piece guide plate left baffle 27 and the stationary contact spring piece guide plate right baffle 28 is constituted as a stationary contact spring piece guide plate slide groove 29b, a stationary contact spring piece transfer guide rail support notch 271 is formed in the rear end direction of the stationary contact spring piece guide plate left baffle 27, a right baffle plate spring piece transition groove 281 is formed in the upper portion of the rear end of the right baffle plate 28 of the stationary contact spring piece transition plate at a position corresponding to the slide groove 29a of the stationary contact spring piece welding station.

Fig. 3 shows a left baffle fixing hole 261, a right baffle fixing hole 262 and a lift cylinder base connection fixing hole 263 which are provided in the stationary spring plate leading plate support base 26, and a side portion of the stationary spring plate lift cylinder base 25 is provided with a cylinder base screw hole 252. After the stationary contact spring plate pressing plate elevating cylinder base 25 is fixed at the center support frame rear step screw hole 1111 corresponding to the right side of the center support frame rear step 111 preset, the stationary contact spring plate pressing plate elevating cylinder base 25 and the stationary contact spring plate leading plate support base 26 are fixed to each other by bolts at the positions corresponding to the elevating cylinder base connection fixing hole 263 and the acting cylinder base screw hole 252. The bottom of the left stationary contact spring piece ferry plate 27 is fixed to the stationary contact spring piece ferry plate support 26 at a position corresponding to the left plate fixing hole 261, and the bottom of the right stationary contact spring piece ferry plate 28 is fixed to the stationary contact spring piece ferry plate support 26 at a position corresponding to the right plate fixing hole 262 for the same reason. Also shown in fig. 3 is a transition plate support center support bracket fixing hole 264 which opens on the side of the stationary contact spring piece guide plate support 26 and which is located in correspondence with the aforementioned lift cylinder block connection fixing hole 263, for a bolt to securely fix the stationary contact spring piece guide plate support 26 to the center support bracket 11 in a position corresponding to the center support bracket rear step 111 at a position corresponding to the transition plate support bracket center support bracket fixing hole 264.

The above-mentioned stationary contact passing hole 221 is obviously a welding portion for the stationary contact 30 to fall down to correspond to the stationary contact spring piece 20 (shown in fig. 3).

As shown in fig. 1, 2 and 4, the stationary spring plate transfer mechanism 3 is provided on the table 1 at a position corresponding to the left side of the left fence 27 of the stationary spring plate ferry plate, and the right end of the stationary spring plate transfer mechanism 3 extends to the stationary spring plate transfer rail support notch 271; the right end of the fixed contact point conveying mechanism 4 extends to the front corresponding to the fixed contact point spring piece supporting disc 23; the left pushing and positioning mechanism 5 of the static contact spring piece is in sliding fit with the transition groove 281 of the right baffle spring piece and is in sliding fit with the left end of the sliding groove 29a of the welding station of the static contact spring piece through the transition groove 281 of the right baffle spring piece; the right pushing and positioning mechanism 6 of the static contact spring piece is in sliding fit with the right end of the sliding groove 29a of the welding station of the static contact spring piece; the stationary contact spring piece transition mechanism 7 provided on the front side of the center support frame 11 at a position corresponding to the center support frame top step 113 is slidably fitted in the stationary contact spring piece transition plate sliding groove 29 b; the stationary contact transfer mechanism 9 reciprocates back and forth between the stationary contact receiving mechanism 8 and above the stationary contact passage hole 221 of the stationary contact spring piece pressure-increasing/decreasing plate 22; the bonding head working mechanism 10 is provided on the rear side of the stationary contact spring plate lifting/lowering plate 22 and also provided above the stationary contact passage hole 221 in an empty state.

In the present embodiment, the stationary contact spring piece pressure plate elevating cylinder 21 of the structural system of the stationary contact spring piece welding support mechanism 2 is a cylinder, and the following cylinders are all cylinders, and therefore, the applicant does not repeat the description thereof.

When the stationary contact spring plate elevation cylinder 21 is operated, for example, when the stationary contact spring plate elevation cylinder column is extended out of the cylinder body, that is, raised upward, the stationary contact spring plate elevation cylinder column push block 211 is driven to float upward together with the stationary contact spring plate elevation/depression plate 22, and the stationary contact spring plate elevation/depression plate 22 releases the pressing (depression) of the upper portion of the stationary contact spring plate 20 located in the stationary contact spring plate guide transition plate slide groove 29b, so that the workpiece on which the welding of the stationary contact 30 and the stationary contact spring plate 20 is completed is pushed away from the stationary contact spring plate guide transition plate slide groove 29b by the stationary contact spring plate right push positioning mechanism 6, which will be described in detail below. On the contrary, when the bonding head operating mechanism 10 is in the process of bonding the stationary contact 30 and the stationary contact spring plate 20, the stationary contact spring plate pressure plate lift cylinder 21 acts in the reverse direction, the stationary contact spring plate pressure plate lift cylinder push block 211 and the stationary contact spring plate lift pressure plate 22 are driven to displace downward, and the stationary contact spring plate 20 is pressed on the stationary contact spring plate support plate 23 by the stationary contact spring plate lift pressure plate 22.

Continuing with fig. 1 to 2 and 4, the fixed contact spring plate transfer mechanism 3 includes a fixed contact spring plate transfer rail vibrator 31 and a fixed contact spring plate transfer rail 32, the fixed contact spring plate transfer rail vibrator 31 is disposed on a fixed contact spring plate transfer rail vibrator support frame 311, the fixed contact spring plate transfer rail vibrator support frame 311 is disposed at a position corresponding to the left side of the fixed contact spring plate transfer plate left baffle 27 and is immediately fixed on the work table 1, the middle portion of the fixed contact spring plate transfer rail 32 is supported and limited on the top portion of the fixed contact spring plate transfer rail vibrator 31, the right end of the fixed contact spring plate transfer rail 32 extends to the fixed contact spring plate transfer plate left baffle 27 and is supported on the fixed contact spring plate transfer rail support notch 271, and a fixed contact spring plate transfer rail 32 is disposed at the upward side of the fixed contact spring plate transfer rail 32 and along the length direction of the fixed contact spring plate transfer rail 32 A point spring piece guide slide groove 321, and the stationary contact spring piece guide slide groove 321 communicates with the stationary contact spring piece transition plate slide groove 29 b. Specifically, the stationary contact spring pieces 20 guided by the stationary contact spring piece guide sliding grooves 321 can be shifted to positions corresponding to the right shutter spring piece transition grooves 281 described above and vice versa by the stationary contact spring piece ferrying mechanism 7 to be mentioned below.

Still referring to fig. 1 to 2 and 4, the aforementioned stationary contact carrying mechanism 4 includes a stationary contact carrying rail vibrator 41 and a stationary contact carrying rail 42, the stationary contact carrying rail vibrator 41 is provided on a stationary contact carrying rail vibrator holder 411, and the stationary-contact-point-feed-rail-vibrator supporting frame 411 is provided immediately above the aforementioned table 1 at a position corresponding to the front of the stationary-contact-point-spring-piece-feed-rail vibrator 31, i.e., the front of the stationary-contact-point-spring-piece-feed-rail-vibrator supporting frame 311, the middle of the stationary contact feed rail 42 is supported and limited on the top of the stationary contact feed rail vibrator 41, the right end of the stationary contact feed rail 42 extends to the front (i.e., the front side) corresponding to the aforementioned stationary contact-point-spring-piece supporting plate 23, a stationary contact guide sliding groove 421 is formed on the upward side of the stationary contact conveyance guide 42 and along the longitudinal direction of the stationary contact conveyance guide 42.

As shown in fig. 1, 2, and 5, the left stationary contact spring piece pushing and positioning mechanism 5 and the right stationary contact spring piece pushing and positioning mechanism 6 correspond to the rear side of the right end of the stationary contact spring piece conveying rail 32; the stationary contact spring piece transition mechanism 7 provided on the front side of the center support frame 11 at a position corresponding to the top step 113 of the center support frame is alternately displaced between the right end port of the stationary contact spring piece guide slide groove 321 and the right striker spring piece transition groove 281 provided on the upper portion of the rear end of the right striker 28 of the stationary contact spring piece transition plate; the width and depth of the right baffle spring piece transition groove 281 are the same as those of the stationary contact spring piece welding station sliding groove 29a, that is, the width and depth of the stationary contact spring piece welding station sliding groove 29a are the same; the stationary contact receiving mechanism 8, which is provided on the front side of the center support frame 11 at a position corresponding to the center support frame top step 113, is engaged with the right end port of the stationary contact guide sliding groove 421.

Continuing with fig. 1, 2 and 5, the left stationary contact spring leaf pushing and positioning mechanism 5 includes a left stationary contact spring leaf pushing and positioning cylinder 51, a left stationary contact spring leaf pushing and positioning rod fixing plate 52 and a left stationary contact spring leaf pushing and positioning rod 53, the left stationary contact spring leaf pushing and positioning cylinder 51 is fixed to the rear side of the upper end of the central support frame 11 in a horizontal state at a position above the right stationary contact spring leaf pushing and positioning mechanism 6, the left pushing and positioning cylinder column 511 of the left stationary contact spring leaf pushing and positioning cylinder 51 faces to the left, the left stationary contact spring leaf pushing and positioning rod fixing plate 52 is fixed to the front side of the left stationary contact spring leaf pushing and positioning cylinder block 512 of the left stationary contact spring leaf pushing and positioning cylinder 51, the left end of the left stationary contact spring leaf pushing and positioning cylinder block 512 is connected to the left end of the left stationary contact spring leaf pushing and positioning cylinder block 511, the left stationary contact spring leaf pushing and positioning rod 53 is fixed to the front end of the left stationary contact spring leaf pushing and positioning rod fixing plate 52 in a horizontal state The direction of the stationary contact spring piece left push rod 53 is directed rightward and corresponds to the left side of the aforementioned right barrier spring piece transition groove 281 of the rear portion of the aforementioned stationary contact spring piece guide plate right barrier 28, where the direction of the stationary contact spring piece left push rod 53 is the direction of the push rod head 531 of the stationary contact spring piece left push rod 53.

When the stationary contact spring piece guiding transition mechanism 7, which will be described in detail below, causes the stationary contact spring piece guiding transition plate 72 of the structural system to move along with the stationary contact spring piece 20 received from the right end port of the stationary contact spring piece guiding sliding groove 321 and to move to a position where the stationary contact spring piece 20 corresponds to the aforementioned pushing rod head 531 at the right end of the aforementioned stationary contact spring piece left pushing rod 53, the stationary contact spring piece left pushing cylinder 51 operates, the left pushing cylinder column 511 displaces rightward, i.e., into the cylinder body, to drive the stationary contact spring piece left pushing cylinder slider 512, together with the stationary contact spring piece left pushing rod fixing plate 52 and the stationary contact spring piece left pushing rod 53 to displace rightward, at this time, the stationary contact spring piece 20 is pushed up from the aforementioned stationary contact spring piece guiding transition plate 72 to the aforementioned stationary contact spring piece welding station sliding groove 29a by the aforementioned pushing rod head 531 and stationary contact spring piece 20, the stationary contact spring piece 20 is moved along the stationary contact spring piece welding station slide groove 29a to a position corresponding to the stationary contact spring piece support plate 23 shown in fig. 1. At the same time, the left pushing rod 53 of the stationary contact spring piece is engaged with the right pushing rod of the stationary contact spring piece to limit the right side of the stationary contact spring piece 20 in the sliding groove 29a of the welding station of the stationary contact spring piece so that the stationary contact spring piece 20 can move neither leftward nor rightward. At this time, as described above by the applicant, the stationary contact spring piece 20 is pressed by the stationary contact spring piece pressure-raising and lowering plate 22 so that the stationary contact 30 is brought into the stationary contact welding position of the stationary contact spring piece 20 corresponding to the lower side of the stationary contact passing hole 221 from the stationary contact passing hole 221 by the cooperative action of the stationary contact take-in mechanism 8 and the stationary contact transfer mechanism 9, at which time the stationary contact 30 is brought into contact with the stationary contact welding position of the stationary contact spring piece 20, and then the stationary contact 30 is welded to the stationary contact spring piece 20 at the position corresponding to the stationary contact passing hole 221 by the operation of the welding head operating mechanism 10. After the welding is completed, the welding head working mechanism 10 moves upward, the static contact spring piece lifting and lowering plate 22 moves upward to release the pressing of the static contact spring piece 20 which completes the static contact welding, the left pushing rod 53 of the static contact spring piece moves leftward and moves back to the original position, and then the right pushing and positioning mechanism 6 of the static contact spring piece works in the same manner as described above, so that the workpiece which completes the welding is ejected out of the sliding groove 29a of the welding station of the static contact spring piece and enters (falls into) the workpiece leading-out groove 15 to be mentioned below. After the workpiece is pushed to the workpiece lead-out groove 15, the right pushing and positioning mechanism 6 of the static contact spring piece reversely works to return to the initial state, and the static contact spring piece guiding plate 72 of the static contact spring piece guiding mechanism 7 moves forward to a station corresponding to the static contact 30, and the process is repeated.

The right stationary-contact-spring-piece pushing-positioning mechanism 6 includes a right stationary-contact-spring-piece pushing-acting cylinder 61, a right stationary-contact-spring-piece pushing-rod-seat fixing plate 62, a right stationary-contact-spring-piece pushing-rod seat 63, and a right stationary-contact-spring-piece pushing rod 64, the right stationary-contact-spring-piece pushing-acting cylinder 61 is fixed to the rear upper end of the center support frame 11 in a horizontally-lying state at a position below the left stationary-contact-spring-piece pushing-acting cylinder 51, and the right stationary-contact-spring-piece pushing-acting cylinder column 611 of the right stationary-contact-spring-piece pushing-acting cylinder 61 faces right, the right stationary-contact-spring-piece pushing-rod-seat fixing plate 62 is fixed to the front side of the right stationary-contact-spring-piece pushing-acting cylinder block 612 of the right stationary-contact-spring-piece pushing-acting cylinder block 61, and the right end of the right stationary-contact-spring-piece pushing-acting cylinder block 612 is connected to the right end of the right stationary-contact-spring-piece pushing-acting cylinder block 611, and the lower end of the right stationary-contact-spring-piece pushing-acting cylinder block 63 is connected to the front side of the right stationary-contact-spring-piece pushing-acting cylinder block 612 And the upper end of the fixed contact spring piece right pushing rod seat 64 protrudes out of the upper edge of the fixed plate 62 of the fixed contact spring piece right pushing rod seat, the fixed contact spring piece right pushing rod 64 is fixed with the upper end of the fixed contact spring piece right pushing rod seat 63 in a horizontal state, and the fixed contact spring piece right pushing rod 64 faces to the left and corresponds to the fixed contact spring piece welding station sliding groove 29 a.

The foregoing stationary contact spring piece right pushing cylinder 61 of the structural system of the stationary contact spring piece right pushing positioning mechanism 6 also operates in the process of pushing the stationary contact spring piece 20 to be welded with the stationary contact 30 to the position corresponding to the foregoing stationary contact spring piece supporting plate 23 by the pushing rod head 531 of the above-mentioned stationary contact spring piece left pushing rod 53. The cylinder block 612 for pushing right the stationary contact spring plate drives the stationary contact spring plate right push rod base fixing plate 62, the stationary contact spring plate right push rod base 63 and the stationary contact spring plate right push rod 64 to move leftward, and the left end portion (i.e., the head portion of the right push rod) of the stationary contact spring plate right push rod 64 is matched with the head portion 531 of the push rod in the sliding groove 29a of the stationary contact spring plate welding station to limit the stationary contact spring plate 20 on the right side of the stationary contact spring plate 20.

Continuing with fig. 1 to 2 and with reference to fig. 3 to 5, the aforementioned stationary-contact-spring-piece guiding mechanism 7 includes a stationary-contact-spring-piece guiding-transition-plate pulling acting cylinder 71 and a stationary-contact-spring-piece guiding-transition plate 72 (also referred to as "stationary-contact-spring-piece transfer plate", hereinafter the same) already mentioned above, the stationary-contact-spring-piece guiding acting cylinder 71 being fixed to the front side of the acting-cylinder-support fixing plate 712, and the acting-cylinder-support fixing plate 712 being fixed to the front side of the aforementioned center support 11 at a position corresponding to the aforementioned center support-support top step 113, the stationary-contact-spring-piece guiding-plate pulling acting cylinder column 711 of the stationary-contact-spring-piece pulling acting cylinder 71 passing rearward through the acting-cylinder-support fixing plate 712 and being connected to the front-end face of the stationary-contact-spring-piece guiding plate 72, the guiding-plate-cylinder connecting hole 722 opened to the front-end face of the stationary-contact-spring-piece guiding plate 72 is shown in fig. 3, the static contact spring piece leading plate traction acting cylinder column 711 is connected with the static contact spring piece leading plate 72 at a position corresponding to the leading plate cylinder column connecting hole 722, the static contact spring piece leading plate 72 is in sliding fit with the static contact spring piece leading plate sliding groove 29b at a position corresponding to the position between the static contact spring piece leading plate left baffle 27 and the static contact spring piece leading plate right baffle 28, and a leading plate static contact spring piece transition groove 721 corresponding to the position of the right baffle spring piece transition groove 281 is arranged on the upward side of the rear end of the static contact spring piece leading plate 72; the stationary contact receiving mechanism 8 provided on the front side of the center support frame 11 at a position corresponding to the center support frame top step 113 is also fixed to the cylinder support frame fixing plate 712.

As is apparent from the above description, the guide plate stationary contact spring piece transition groove 721 of the stationary contact spring piece guide plate 72 is alternately displaced between a position corresponding to the right end port of the stationary contact spring piece guide slide groove 321 and a position corresponding to the right baffle spring piece transition groove 281, i.e., the left end port of the stationary contact spring piece welding station slide groove 29 a. The method comprises the following steps: when the stationary contact spring piece leading transition plate traction cylinder 71 works and causes the stationary contact spring piece leading transition plate traction cylinder column 711 to move forward, that is, to the cylinder body, the stationary contact spring piece leading transition plate 72 is pushed by the stationary contact spring piece leading transition plate traction cylinder column 711 to move forward along the stationary contact spring piece leading transition plate sliding groove 29b and cause the leading transition plate stationary contact spring piece transition groove 721 to correspond to the right end port of the stationary contact spring piece guiding sliding groove 321, and the stationary contact spring pieces 20 (one piece at a time) in the stationary contact spring piece guiding sliding groove 321 enter the leading transition plate stationary contact spring piece transition groove 721. Then, the stationary spring plate leading transition plate pulling cylinder 71 works in the opposite direction with respect to the above, so that the stationary spring plate leading transition plate pulling cylinder column 711 is displaced backward, i.e., outward of the cylinder body, and pushes the stationary spring plate leading transition plate 72 to carry the stationary spring plate 20 to be displaced backward in the stationary spring plate leading transition plate sliding groove 29b, so that the leading transition plate stationary spring plate transition groove 721 corresponds to the left side of the right baffle spring plate transition groove 281, i.e., corresponds to the left end port of the stationary spring plate welding station sliding groove 29 a. At this time, the stationary contact spring piece 20 to be welded with the stationary contact 30 is positioned at a station corresponding to the stationary contact spring piece support plate 23 in the above explanation of the stationary contact spring piece left and right pushing and positioning mechanisms 5 and 6 and the explanation of the stationary contact spring piece welding and supporting mechanism 2 by the applicant. That is, in the foregoing process, the stationary contact spring piece 20 is pushed to the station of the stationary contact spring piece support plate 23 through the right apron spring piece transition groove 281 at the position corresponding to the transition plate stationary contact spring piece transition groove 721 by the aforementioned push-out lever head 531.

The stationary contact receiving mechanism 8 includes a stationary contact receiving plate driving cylinder 81, a stationary contact receiving plate 82, a stationary contact guard plate 83, a stationary contact receiving plate stroke adjusting screw seat 84, a stationary contact receiving plate stroke adjusting screw 85, a receiving plate guide slider 86, and a receiving plate guide slider guide 87, the stationary contact receiving plate driving cylinder 81 is fixed to the front side of the cylinder support fixing plate 712 at a position corresponding to the upper right of the stationary contact spring plate traction cylinder 71, a stationary contact receiving plate driving cylinder post 811 of the stationary contact receiving plate driving cylinder 81 passes through the cylinder support fixing plate 712 and is connected to the front end of the stationary contact receiving plate 82, a stationary contact receiving port 821 (shown in fig. 4) for receiving the stationary contact delivered from the stationary contact guide sliding groove 421 is provided on the left side of the rear end of the stationary contact receiving plate 82, and the stationary contact take-up plate 82 is fixed to a take-up plate guide slider 86 located therebelow, the take-up plate guide slider 86 is slidably fitted to a take-up plate guide slider rail 87, the take-up plate guide slider rail 87 is fixed to a side surface of the center support frame 11 facing upward from the center support frame top step 113, a stationary contact take-up plate stroke adjusting screw seat 84 is also fixed to a side surface of the center support frame 11 facing upward from the center support frame top step 113 at a position corresponding to the rear end of the stationary contact take-up plate 82, a stationary contact guard plate 83 is fixed to a side surface of the center support frame top step 113 facing upward from the position corresponding to the left side of the rear end of the stationary contact take-up plate 82, a space between the right side surface of the stationary contact guard plate 83 and the left side surface of the rear end of the stationary contact take-up plate 82 is configured as a stationary contact point restricting accommodation chamber (also referred to as "stationary contact point suction-off station", hereinafter, the same applies) on the stationary contact take-up plate stroke adjustment screw seat 84, a stationary contact take-up plate stroke adjustment screw 85 is screwed on the stationary contact take-up plate stroke adjustment screw seat 84 at a position corresponding to the rear end face of the stationary contact take-up plate 82; the stationary contact transfer mechanism 9 is reciprocally displaced back and forth between the stationary contact position limiting accommodating chamber and above the stationary contact passing hole 221 of the stationary contact spring plate pressure-up and pressure-down plate 22.

When the stationary contact taking plate driving cylinder 81 operates to displace the stationary contact taking plate driving cylinder post 811 forward, i.e., toward the inside of the cylinder body, the stationary contact taking plate 82 is driven to displace forward correspondingly and the stationary contact taking port 821 thereof is caused to correspond to the right end port of the stationary contact guiding sliding groove 421 of the stationary contact conveying rail 42, and the stationary contact 30 drawn out from the stationary contact guiding sliding groove 421 enters the stationary contact taking port 821 (one stationary contact 30 at a time). Then, the stationary contact pickup cylinder 81 is operated in the reverse direction, and the stationary contact pickup plate 82 is moved backward in the reverse direction in a state where one stationary contact 30 is picked up, so that the positions of the stationary contact pickup port 821 and the right end port of the stationary contact guide slide groove 421 are shifted, and the stationary contact 30 is carried by the stationary contact pickup plate 82 and enters the stationary contact position defining housing chamber, i.e., between the right side of the stationary contact shield plate 83 and the left side of the stationary contact pickup plate 82, and in this state, the stationary contact 30 is still at the position of the stationary contact pickup port 821, and is shielded only by the stationary contact shield plate 83, and at this position, the stationary contact 30 can be transferred to the stationary contact passing hole 221 by the stationary contact transfer mechanism 9 to be described later.

The stroke of the forward and backward displacement of the stationary contact pickup plate 82 described above can be controlled by adjusting the stationary contact pickup plate stroke adjustment screw 85.

With particular reference to fig. 1 to 2 and 4 in conjunction with fig. 6 to 7, the stationary contact transfer mechanism 9 includes a driving box 91, a longitudinal sliding rack guide 92a, a longitudinal sliding rack 92b, a longitudinal lifting rack driving cylinder 93, an upper link shaft gear 94, a lower link shaft driving wheel 95a, a transmission belt 95b, a transmission belt driving wheel 95c, an upper link 95d, a lower link 95e, a linkage rod 96, a slide rod 97, a stationary contact suction nozzle holder 98, and a stationary contact suction nozzle 99, the driving box 91 is disposed at a position corresponding to the right side of the center support frame 11 and is fixed to the table 1, a driving box screw hole 914 for fixing the bottom of the driving box 91 to the table 1 is shown in fig. 1, a left box plate 911 is disposed at the left side of the driving box 91 and a right box plate 912 is disposed at the right side, the longitudinal sliding rack guide 92a is disposed in the driving box cavity 913 of the driving box 91 and is longitudinally connected to the rear of the driving box 91 by a guide fixing screw A box plate fixing, a longitudinal lifting rack driving action cylinder 93 disposed in the drive box chamber 913 and a longitudinal lifting rack driving action cylinder column 931 (shown in fig. 4) of the longitudinal lifting rack driving action cylinder 93 facing upward, a rear side of the longitudinal sliding rack 92b being fixed to a sliding rack slider 92c, the sliding rack slider 92c being slidably fitted to the longitudinal sliding rack guide rail 92a, an upper link shaft gear 94 being fixed to the upper link shaft 941 at a position corresponding to the longitudinal sliding rack 92b and being engaged with the longitudinal sliding rack 92b, a left end of the upper link shaft 941 being rotatably supported on the aforementioned left box plate 911 and projecting out of a left side surface of the left box plate 911 by a left upper link shaft support bearing 9411, a right end of the upper link shaft 941 being also rotatably supported on the aforementioned right box plate 912 by a corresponding, i.e., by a right upper link shaft support bearing 9411, a drive wheel 95c being fixed to the aforementioned upper link shaft 941 at a position corresponding to a right side of the upper link shaft 94 Upper, lower link shaft drive wheels 95a are fixed to a lower link shaft 95f at a position corresponding to a lower portion of the belt drive wheels 95c, a left end of the lower link shaft 95f is rotatably supported on the left box plate 911 by a left lower link shaft support bearing 95g and protrudes out of a left side surface of the left box plate 911, a right end of the lower link shaft 95f is also rotatably supported on the right box plate 912 by a right lower link shaft support bearing 95g, a belt 95b is fitted over the belt drive wheels 95c at an upper end thereof and over the lower link shaft drive wheels 95a at a lower end thereof, an end of the upper link 95d facing the upper link shaft 941 is fixed to the left end of the upper link shaft 941 in a sandwiching and fixing manner, a lower link 95e is fixed to the left end of the lower link shaft 95f in a sandwiching and fixing manner toward an end of the lower link shaft 95f, and the upper link 95d and the lower link 95e correspond to each other up and down, the upper end of the linkage rod 96 is connected with one end of the upper connecting rod 95d far away from the upper connecting rod shaft 941 through a linkage rod first fixing screw I961, the lower end of the linkage rod 96 is connected with one end of the lower connecting rod 95e far away from the lower connecting rod shaft 95f through a linkage rod second screw II 962, the sliding rod 97 is fixed on the sliding rod fixing seat 971 by inserting, the slide bar fixing seat 971 is fixed with the middle part of the left side of the linkage rod 96 through a slide bar fixing seat screw 9711, the right end of the stationary contact suction nozzle seat 98 is fixed with a suction nozzle seat fixing block 981, the suction nozzle base fixing block 981 is fixedly sleeved at the upper end of the sliding rod 97 through a preset suction nozzle base fixing block tensioning hole 9811, the static contact suction nozzle 99 is arranged at the left end of the static contact suction nozzle base 98, and under the operation of the longitudinal lifting rack driving acting cylinder 93, the stationary contact suction nozzle 99 reciprocates back and forth between the housing chamber defined at the stationary contact position and above the stationary contact passing hole 221 of the stationary contact spring plate lift-and-drop plate 22.

In this embodiment, the belt driving wheel 95c and the lower link driving wheel 95a are pulleys, and the belt 95b is a belt. The stationary contact suction nozzle 99 is connected in the operating state via a line to a vacuum generator, such as a vacuum pump or the like.

Referring to fig. 6 in conjunction with fig. 1-2 and 4, when the longitudinal lifting rack driving cylinder 93 works, the longitudinal lifting rack driving cylinder 931 extends upward to the outside of the cylinder body, pushing the longitudinal sliding rack 92b to displace upward along the longitudinal sliding rack guide rail 92a, driving the upper link shaft gear 94 by the longitudinal sliding rack 92b during upward displacement, driving the upper link shaft 941 by the upper link shaft gear 94, driving the upper link 95d and the belt driving wheel 95c by the upper link shaft 941, driving the belt 95b by the belt driving wheel 95c, driving the lower link shaft driving wheel 95a by the belt 95b, driving the lower link shaft 95f by the lower link shaft driving wheel 95a, driving the lower link 95e by the lower link shaft 95f, so that the upper link shaft 941 and the lower link shaft 95f drive the upper link 95d and the lower link 95e respectively, then, the linkage rod 96 is driven by the upper connecting rod 95d and the lower connecting rod 95e simultaneously, the slide rod fixing seat 971 is driven by the linkage rod 96, the slide rod 97 is driven by the slide rod fixing seat 971, the suction nozzle seat fixing block 981 is driven by the slide rod 97, and the stationary contact suction nozzle seat 98 and the stationary contact suction nozzle 99 are driven by the suction nozzle seat fixing block 981, during the above-mentioned action, the stationary contact suction nozzle 99 arranged on the stationary contact suction nozzle seat 98 is transferred from the position corresponding to the upper side of the stationary contact through hole 221 to the position corresponding to the stationary contact position limited accommodating cavity, that is, the position corresponding to the position between the right side of the stationary contact guard plate 83 and the left side of the stationary contact access plate 82 and corresponding to the stationary contact 30 still in the stationary contact access 821, at this time, the stationary contact 30 is sucked by the stationary contact suction nozzle 99 under the action of the above-mentioned negative pressure generating device.

Referring to fig. 7 in conjunction with fig. 1 to 2, 4 and 6, after the stationary contact 30 is sucked by the stationary contact suction nozzle 99, the longitudinal lifting rack driving action cylinder 93 is operated in reverse direction with respect to the above, so that the longitudinal lifting rack driving action cylinder 931 is displaced into the cylinder, i.e., downwardly, to push the longitudinal sliding rack 92b to be displaced downwardly along the longitudinal sliding rack guide rail 92a, in reverse direction to the above action stroke until the stationary contact suction nozzle holder 98 together with the stationary contact suction nozzle 99 sucking the stationary contact 30 is transferred, i.e., moved, to above the corresponding stationary contact passing hole 221, at which time the stationary contact suction nozzle 99 is evolved from the previous negative pressure to a positive pressure (the valve on the pipe connected to the negative pressure generating means is closed), thereby releasing the previously sucked stationary contact 30 to the stationary contact passing hole 221, and just falling to the stationary contact welding position of the stationary contact spring piece 20 to be located there and in the above-mentioned locating state by the applicant, so that welding is performed by a welding point working mechanism 10 to be described later. After the stationary contact 30 is released by the stationary contact suction nozzle 99, the stationary contact suction nozzle 99 is returned to a position corresponding to the stationary contact 30 located in the stationary contact receiving port 821 between the right side of the stationary contact guard plate 83 and the left side of the stationary contact receiving plate 82 as described above with reference to the operation process shown in fig. 6, and the stationary contact 30 is sucked again, and this is repeated.

Referring to fig. 1 and fig. 2, the bonding head operating mechanism 10 includes a bonding head lifting cylinder holder 101, a bonding head lifting cylinder 102, a bonding head lifting slider 103, a bonding head fixing holder 104, and a bonding head 105, the bonding head lifting cylinder holder 101 corresponds to the rear side of the stationary contact spring piece lifting/lowering plate 22, the lower end, i.e., the bottom, of the bonding head lifting cylinder holder 101 is fixed to the work table 1 by screws, the upper end extends upward in a direction away from the work table 1, the bonding head lifting cylinder 102 is fixed to a bonding head lifting cylinder holder 1022 in a longitudinal state, the bonding head lifting cylinder holder 1022 is fixed to the upper end surface of the bonding head lifting cylinder holder 101, the bonding head lifting slider 103 is slidably engaged with the bonding head lifting/lowering guide rail 1031, and the upper portion of the bonding head lifting slider 103 is connected to a bonding head lifting/lowering cylinder column 1021 of the bonding head lifting/lowering cylinder 102, the bonding head lifting guide rail 1031 is fixed to the front side surface of the bonding head lifting cylinder holder 101, the bonding head holder 104 is fixed to the bottom of the bonding head lifting slider 103, and the bonding head 105 is vertically adjustably fixed to the bonding head holder 104 and corresponds to the upper side of the stationary contact passage hole 221 in an empty state.

When the stationary contact nozzle 99 releases the stationary contact 30 to the welding position on the stationary contact spring plate 20 through the stationary contact passing hole 221 and moves to the stationary contact extraction station along with the stationary contact nozzle seat 98 under the operation of the longitudinal lifting rack driving acting cylinder 93, the welding head operating mechanism 10 operates, specifically: the welding head lifting cylinder 102 works, the welding head lifting cylinder column 1021 displaces (extends) downwards to the outside of the cylinder body, the welding head slider 103 is driven to move downwards, the welding head fixing seat 104 is driven to move downwards by the welding head slider 103, the welding head 105 is driven to move downwards by the downward movement of the welding head fixing seat 104, the static contact 30 is welded by the tail end (the lower end part of the figure) of the welding head 105 at the position corresponding to the static contact through hole 221, and the static contact 30 and the static contact spring piece 20 are combined into a whole. After the welding is completed, the head lifting cylinder 102 of the head operating mechanism 10 is operated in the reverse direction, and the welding head 105 is moved upward in the reverse process. Next, as described above by the applicant, the stationary contact spring piece pressure plate lift cylinder post push block 211 is displaced upward by the operation of the stationary contact spring piece pressure plate lift cylinder 21, and the stationary contact spring piece pressure lift plate 22 is driven to move upward to release the pressing (pressing) of the stationary contact spring piece 20, that is, to release the stationary contact spring piece 20. Next, similarly to the explanation of the left push positioning mechanism 5 by the applicant, the push rod head 531 is displaced leftward to release the restriction on the left side of the stationary contact spring piece 20 to which the stationary contact 30 is welded. Next, still according to the explanation of the stationary contact spring piece right pushing positioning mechanism 6 by the applicant, the stationary contact spring piece right pushing rod 64 is further displaced one stroke leftward, the stationary contact spring piece 20 having completed the welding of the stationary contact 30 is ejected (moved away) from the stationary contact spring piece welding station sliding groove 29a, and then, the stationary contact spring piece right pushing cylinder 61 is operated in the reverse direction to return to the standby state in which the next operation is repeated.

Referring to fig. 8, as shown in fig. 8, a stationary contact spring plate 12, a stationary contact vibration plate 13 and a welding machine 14 are provided on the table 1, the left end of the stationary contact spring plate transfer rail 32 extends to the stationary contact spring plate vibration plate 12, that is, the stationary contact spring plate 12 transfers the stationary contact spring 20 to the stationary contact spring plate transfer rail 32, the left end of the stationary contact transfer rail 42 extends to the stationary contact vibration plate 13, that is, the stationary contact plate 13 transfers the stationary contact 30 to the stationary contact transfer rail 42, and the welding head working mechanism 10 is electrically connected to the welding machine 14; since a work lead-out groove 15 is fixed to the center support 11 in an inclined state, the welded stationary contact spring piece 20 is pushed by the stationary contact spring piece right push rod 64 from the stationary contact spring piece welding station slide groove 29a through the right baffle spring piece transition groove 281 into the work lead-out groove 15 and is led out from the work lead-out groove 15.

According to the common knowledge, the actions of the above mechanisms are orderly and relay-effect actions according to the control of a PLC (programmable logic controller).

To sum up, the technical solution provided by the present invention remedies the defects in the prior art, successfully completes the invention task, and faithfully embodies the technical effects mentioned in the above technical effect column by the applicant.

Claims (7)

1. A static contact spring leaf supply structure of a protector static contact welding machine comprises a workbench (1) and a static contact spring leaf welding supporting mechanism (2), wherein the workbench (1) is rectangular in shape, a workbench supporting box (16) for arranging an electric control component is arranged below the workbench (1), a central supporting frame (11) is fixed on one side of the workbench (1) facing upwards and positioned at the central position of the workbench (1) in a longitudinal state, a workpiece lead-out groove (15) is fixed on the left side of the central supporting frame (11), the cross section of the workpiece leading-out groove (15) is U-shaped and inclines downwards from the position of the central supporting frame (11) to the direction far away from the central supporting frame (11), the static contact spring piece welding supporting mechanism (2) is arranged at the upper part of the central supporting frame (11); the device is characterized in that the static contact spring piece supply structure comprises a static contact spring piece conveying mechanism (3), a static contact spring piece guiding and crossing mechanism (7), a static contact spring piece left pushing and positioning mechanism (5) and a static contact spring piece right pushing and positioning mechanism (6), the static contact spring piece conveying mechanism (3) is arranged on the workbench (1) at a position corresponding to the left side of the static contact spring piece welding and supporting mechanism (2), the static contact spring piece guiding and crossing mechanism (7) is arranged on the front side of the central supporting frame (11) and matched with the static contact spring piece welding and supporting mechanism (2), the static contact spring piece left pushing and positioning mechanism (5) and the static contact spring piece right pushing and positioning mechanism (6) are arranged on the rear side of the central supporting frame (11) and correspond to the static contact spring piece welding and supporting mechanism (2), the left static contact spring piece pushing and positioning mechanism (5) is located above the right static contact spring piece pushing and positioning mechanism (6) and the arrangement direction of the left static contact spring piece pushing and positioning mechanism on the central support frame (11) is opposite to the arrangement direction of the right static contact spring piece pushing and positioning mechanism (6).

2. The stationary contact spring piece feeding structure of a protector stationary contact welding machine according to claim 1, characterized in that a central support frame rear step (111), a central support frame middle step (112) and a central support frame top step (113) are formed in this order from rear to front and from low to high on the upper portion of said central support frame (11) of said work table (1); the static contact spring piece welding supporting mechanism (2) is arranged on the rear step (111) of the central supporting frame; the left static contact spring piece pushing and positioning mechanism (5) and the right static contact spring piece pushing and positioning mechanism (6) correspond to the rear side of the right end of the static contact spring piece conveying mechanism (3); the static contact spring piece ferrying mechanism (7) is arranged on the front side of the central supporting frame (11) at a position corresponding to a top step (113) of the central supporting frame.

3. The static contact spring plate feeding structure of the welding machine of the protector static contact according to claim 2, characterized in that the static contact spring plate welding supporting mechanism (2) comprises a static contact spring plate lifting acting cylinder (21), a static contact spring plate lifting plate (22), a static contact spring plate supporting disc (23), a static contact spring plate limiting block (24), a static contact spring plate lifting acting cylinder seat (25), a static contact spring plate leading plate supporting seat (26), a static contact spring plate leading plate left baffle plate (27) and a static contact spring plate leading plate right baffle plate (28), the static contact spring plate lifting acting cylinder seat (25) is fixed behind the upper part of the central supporting frame (11) and is attached to the lower part of the right rear end side of the static contact spring plate leading plate right baffle plate (28), and the static contact spring plate lifting acting cylinder seat (25) is arranged on the upward side of the rear end of the static contact spring plate lifting acting cylinder seat (25) and is arranged corresponding to the static contact spring plate lifting acting cylinder seat A static contact spring piece pressure plate lifting action cylinder supporting step cavity (251) is formed at the position of the lifting action cylinder (21), the static contact spring piece pressure plate lifting action cylinder (21) is arranged on a static contact spring piece pressure plate lifting action cylinder seat (25) at the position corresponding to the static contact spring piece pressure plate lifting action cylinder supporting step cavity (251), a static contact spring piece pressure plate lifting action cylinder column of the static contact spring piece pressure plate lifting action cylinder (21) faces upwards and is fixed with a static contact spring piece pressure plate lifting action cylinder column push block (211), the rear end of a static contact spring piece lifting pressure plate (22) is fixed with the upper part of the static contact spring piece pressure plate lifting action cylinder column push block (211), the front end of the static contact spring piece lifting pressure plate (22) extends to the rear upper part of the static contact spring piece supporting disc (23), and a static contact (through hole) is formed in the middle part of the front end of the static contact spring piece lifting pressure plate (22), the static contact spring plate support plate (23) is fixed on a static contact spring plate support plate seat (232) through a support plate fixing hole (231) arranged at the central position of the static contact spring plate support plate, a limit block fixing cavity (233) is formed at one side of the upward facing of the static contact spring plate support plate seat (232) and at the position corresponding to the rear side of the static contact spring plate support plate (23), an upward extending stack edge (2331) is formed at the rear side edge part of the limit block fixing cavity (233), a static contact spring plate limit block (24) is fixed in the limit block fixing cavity (233) at the position corresponding to the front part of the stack edge (2331) and at the state parallel to the stack edge (2331), the space between the static contact spring plate limit block (24) and the stack edge (2331) is formed as a static contact spring plate welding station sliding groove (29a), a static contact spring plate guide plate support seat (26) is arranged at the position corresponding to the left side of the static contact spring plate lifting action cylinder seat (25) and the middle position A heart support frame rear step (111) is fixed, a static contact spring piece guiding plate left baffle plate (27) and a static contact spring piece guiding plate right baffle plate (28) are fixed on the static contact spring piece guiding plate supporting seat (26) in a state of corresponding left and right, the right side surface of the static contact spring piece guiding plate right baffle plate (28) is simultaneously contacted with the left side surface of the static contact spring piece supporting plate seat (232) and the left side surface of a static contact spring piece pressing plate lifting acting cylinder (21), a space between the static contact spring piece guiding plate left baffle plate (27) and the static contact spring piece guiding plate right baffle plate (28) is a static contact spring piece guiding plate sliding groove (29b), a static contact spring piece conveying guide rail supporting notch (271) is formed on the rear end orientation of the static contact spring piece guiding plate left baffle plate (27), a static contact spring piece conveying guide rail sliding groove (29a) is formed on the upper part of the rear end of the static contact spring piece guiding plate right baffle plate (28) and corresponds to the static contact piece welding station sliding groove (29a) A right baffle spring piece transition groove (281) is arranged at the position of the baffle plate; the static contact spring piece conveying mechanism (3) is arranged on the workbench (1) at a position corresponding to the left side of a left baffle (27) of the static contact spring piece ferry plate, and the right end of the static contact spring piece conveying mechanism (3) extends to the static contact spring piece conveying guide rail supporting notch (271); the left pushing and positioning mechanism (5) of the static contact spring piece is in sliding fit with the transition groove (281) of the right baffle spring piece, and is in sliding fit with the left end of the sliding groove (29a) of the welding station of the static contact spring piece after passing through the transition groove (281) of the right baffle spring piece; the right pushing and positioning mechanism (6) of the static contact spring piece is in sliding fit with the right end of a sliding groove (29a) of a welding station of the static contact spring piece; the static contact spring piece transition mechanism (7) which is arranged on the front side of the central supporting frame (11) corresponding to the position of the top step (113) of the central supporting frame is in sliding fit with the sliding groove (29b) of the static contact spring piece transition plate.

4. The static contact spring feeding structure of a protector static contact welding machine according to claim 3, characterized in that said static contact spring feeding mechanism (3) comprises a static contact spring feeding rail vibrator (31) and a static contact spring feeding rail (32), the static contact spring feeding rail vibrator (31) is provided on said table (1) at a position corresponding to the left side of said static contact spring ferry plate left fence (27), the middle portion of the static contact spring feeding rail (32) is supported and defined on the top portion of the static contact spring feeding rail vibrator (31), the right end of the static contact spring feeding rail (32) extends to the static contact spring ferry plate left fence (27) and is supported on said static contact spring feeding rail supporting notch (271), on the side of the static contact spring feeding rail (32) facing upward and along the length direction of the static contact spring feeding rail (32) A fixed contact spring piece guiding sliding groove (321) is formed, and the fixed contact spring piece guiding sliding groove (321) is communicated with the fixed contact spring piece ferry plate sliding groove (29 b); the left static contact spring piece pushing and positioning mechanism (5) and the right static contact spring piece pushing and positioning mechanism (6) correspond to the rear side of the right end of the static contact spring piece conveying guide rail (32); the static contact spring piece transition mechanism (7) arranged at the front side of the central support frame (11) corresponding to the position of the central support frame top step (113) is alternately displaced between the right end port of the static contact spring piece guide sliding groove (321) and the right baffle spring piece transition groove (281) arranged at the upper part of the rear end of the right baffle plate (28) of the static contact spring piece transition plate; the width and the depth of the right baffle spring piece transition groove (281) are the same as those of the sliding groove (29a) of the static contact spring piece welding station.

5. The stationary contact spring plate feeding structure of a welding machine for stationary contacts of a protector according to claim 4, wherein said stationary contact spring plate left pushing and positioning mechanism (5) comprises a stationary contact spring plate left pushing cylinder (51), a stationary contact spring plate left pushing rod fixing plate (52) and a stationary contact spring plate left pushing rod (53), the stationary contact spring plate left pushing cylinder (51) is fixed to the rear side of the upper end of said center support frame (11) in a horizontally lying state at a position above said stationary contact spring plate right pushing and positioning mechanism (6), and the left pushing cylinder column (511) of the stationary contact spring plate left pushing cylinder (51) faces leftward, the stationary contact spring plate left pushing rod fixing plate (52) is fixed to the front side of the stationary contact spring plate left pushing cylinder slider (512) of the stationary contact spring plate left pushing cylinder (51), the left end of the static contact spring piece left pushing acting cylinder sliding block (512) is connected with the left end part of the left pushing acting cylinder column (511), a static contact spring piece left pushing rod (53) is fixed on the front side of a static contact spring piece left pushing rod fixing plate (52) in a horizontal state, the direction of the static contact spring piece left pushing rod (53) faces to the right and corresponds to the left side of the right baffle plate spring piece transition groove (281) at the rear part of the static contact spring piece transition plate right baffle plate (28).

6. The stationary contact spring piece feeding structure of a protector stationary contact welding machine as set forth in claim 5, wherein said stationary contact spring piece right pushing and positioning mechanism (6) comprises a stationary contact spring piece right pushing cylinder (61), a stationary contact spring piece right pushing rod base fixing plate (62), a stationary contact spring piece right pushing rod base (63) and a stationary contact spring piece right pushing rod (64), the stationary contact spring piece right pushing cylinder (61) is fixed in a horizontally lying state to the rear side of the upper end of said center support frame (11) at a position below said stationary contact spring piece left pushing cylinder (51), and a right pushing cylinder column (611) of the stationary contact spring piece right pushing cylinder (61) faces rightward, the stationary contact spring piece right pushing rod base fixing plate (62) is fixed to the front side of a stationary contact spring piece right pushing cylinder slider (612) of the stationary contact spring piece right pushing cylinder (61), the right end of the right pushing cylinder sliding block (612) of the static contact spring piece is connected with the right end of the right pushing cylinder column (611), the lower end of the right pushing rod seat (63) of the static contact spring piece is fixed with the front side of the right pushing cylinder sliding block (612) of the static contact spring piece, the upper end of the right pushing rod seat (63) of the static contact spring piece extends out of the upper edge of the fixed plate (62) of the right pushing rod seat of the static contact spring piece, the right pushing rod (64) of the static contact spring piece is fixed with the upper end of the right pushing rod seat (63) of the static contact spring piece in a horizontal state, and the right pushing rod (64) of the static contact spring piece faces to the left and corresponds to the sliding groove (29a) of the welding station of the static contact spring piece.

7. The stationary contact spring piece feeding structure of a protector stationary contact welding machine as set forth in claim 4, wherein said stationary contact spring piece ferrying mechanism (7) comprises a stationary contact spring piece ferry plate pulling cylinder (71) and a stationary contact spring piece ferry plate (72), said stationary contact spring piece ferry plate pulling cylinder (71) being fixed to a front side of said operating cylinder support frame fixing plate (712) and said operating cylinder support frame fixing plate (712) being fixed to a front side of said center support frame (11) at a position corresponding to said center support frame top step (113), said stationary contact spring piece ferry plate pulling cylinder column (711) of said stationary contact spring piece ferry plate pulling cylinder (71) passing rearwardly through said operating cylinder support frame fixing plate (712) and being connected to a front end face of said stationary contact spring piece ferry plate (72) and said stationary contact spring piece ferry plate (72) being connected to a left end face (27) corresponding to said stationary contact spring piece ferry plate The position between the fixed contact spring piece transition plate and the right baffle plate (28) is in sliding fit with the fixed contact spring piece transition plate sliding groove (29b), and a transition plate fixed contact spring piece transition groove (721) corresponding to the position of the right baffle plate spring piece transition groove (281) is formed in the upward side of the rear end of the fixed contact spring piece transition plate (72).

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