CN103934681A - Semi-automatic assembly device of motor starter of refrigeration compressor - Google Patents

Abstract

The invention discloses a semi-automatic assembly device of a motor starter of a refrigeration compressor, and belongs to special facilities for electronic and electrical product production assembly lines. The semi-automatic assembly device comprises a working platform, a sliding table, a die bed plate, a die mechanism, a gland mechanism, a sliding table traction acting cylinder and a cover pushing acting cylinder fixing plate, wherein the sliding table is arranged on the working platform, a starter cover locating backup plate and the die bed plate are arranged on one side of sliding table, the die mechanism is matched with the die bed plate, the gland mechanism is arranged on the left side of the working platform, the sliding table traction acting cylinder is fixed to the middle position of the left side of the working platform, and a cover pushing acting cylinder is arranged on one side of the cover pushing acting cylinder fixing plate. The semi-automatic assembly device is characterized in that a pin reed clamping mechanism and a clamping jaw base driving mechanism are arranged on the sliding table, the pin reed clamping mechanism comprises a guide block, a sliding block, a clamping jaw base and a clamping jaw, the cross section of the guide block is in the shape of a dovetail, a guide block sliding groove with a dovetail-shaped cross section is formed in the side, facing the guide block, of the sliding block, and the guide block sliding groove is in sliding fit with the guide block. A left pin reed and a right pin reed are made to enter corresponding installation positions on a starter cover in the state that the pace of the left pin reed and the right pin reed is the same as that of a left pin and a right pin.

Description

Startor for refrigeration compressor electric machine semi-automatic assembling device

Technical field

The invention belongs to the special facilities technical field of electronic and electrical equipment production line, be specifically related to a kind of startor for refrigeration compressor electric machine semi-automatic assembling device.

Background technology

Above mentioned electronic and electrical equipment production line comprises that the assembling of parts and follow-up automation detect, taking startor for refrigeration compressor electric machine as example, first by special semi-automatic assembling device by positive temperature coefficient thermistor and correspond respectively to positive temperature coefficient thermistor both sides and (industry custom is called a left side with a pair of pin of positive temperature coefficient thermistor electrical contact, right pin or be called before, rear pin) be pressed into that to default in cap be positive temperature coefficient thermistor installation position and a pair of pin installation position in starter cover, again cap and housing are combined as a whole, then deliver to automation detection station by conveying device and carry out automation detection, whether the break-off signal (take-off temperature) that for example detects startor for refrigeration compressor electric machine meets standard-required, taking 105 ± 5 DEG C of take-off temperature setting as example, occur that circuit disconnects situation if not yet reach 100 DEG C, be judged to be so to disconnect in advance, and for example fruit is at 110 DEG C of disconnecting circuits not yet above, be judged to be so circuit and disconnect hysteresis, to hold the quality of motor starter.Hence one can see that, and refrigeration compressor electric starter semi-automatic assembling device is an indispensable device in motor starter production line.Because can give play to gratifying high efficiency advantage in the time that it matches with follow-up automatic detection device, especially can avoid the low and artificial detection of pure artificial efficiency of assembling to have undetected problem.

Technical information about aforesaid startor for refrigeration compressor electric machine is no lack of and is seen in disclosed Chinese patent literature, slightly with exemplify as patent No. ZL200420109214.4(mutual inductance type non-contact starter), ZL200520072113.9(compressor motor starter), ZL200820033846.5(non-power consumption starter of single-phase motor), ZL200810196756.2(energy-saving type integral single phase AC electric motor starting, protector), ZL200910183963.9(is in conjunction with the non-power consumption starter of single-phase motor of overload protective device), ZL201020178353.8(mutual inductance type non-contact starter), ZL201020178354.2(mutual inductance type non-contact starter), ZL201020178361.2(mutual inductance type non-contact starter for load motor), and " a kind of motor starter of improvement " typically recommended as ZL200620075880.X, etc..

By to and the no deciphering that is limited to the patent exemplifying known: motor starter is series in the starting circuit of refrigeration compressor, its function is to utilize its positive temperature coefficient thermistor at normal temperatures in little resistance conducting state, and in the time of compressor electric motor energising starting, electric current is connected the starting circuit of compressor through positive temperature coefficient thermistor and the pin (also claiming contact) corresponding with positive temperature coefficient thermistor, make refrigeration compressor motor starting.Simultaneously, in the moment of refrigeration compressor motor starting, make rapidly positive temperature coefficient thermistor heating by the electric current of the positive temperature coefficient thermistor of flowing through, thereby within the extremely short time, make positive temperature coefficient thermistor reach high value state, the starting circuit of cutting off compressor, makes compressor enter normal operation.

Before the present invention proposes, conventionally with manual work mode, positive temperature coefficient thermistor and a pair of pin are respectively charged into the positive temperature coefficient thermistor installation position and a pair of pin installation position that default on cap (being starter cover, as follows) by workman.One of shortcoming that this assembling mode exists, because efficiency of assembling is low, thereby makes up by the quantity that increases human input, thereby not only causes human resources waste, and cause manufacturing cost to increase; Two, workman's assembling work intensity is large, if because a pair of pin will to be inserted reliably to the pin holes defaulting on cap be aforesaid pin installation position and guarantee that the reed on pin reliably contacts with positive temperature coefficient thermistor, so must be to pin people for exerting pressure, so workman's physical demands is large; Three, owing to being artificial assembling, thus assembling difficult quality control because can there is corresponding variation because of assembler's experience difference, sense of duty difference and even emotional change in assembly quality; Its four, owing to being hand assembled, thereby assembling speed cannot grasp, cause be difficult to follow-up station on the detection rhythm of automatic detection device coordinate mutually.Particularly, automatic detection device is prone to following two kinds and does not all wish the situation occurring: the one, there is the situation of slowing down of waiting for; The 2nd, because cumulative too has little time the situation of retrieval, and these two kinds of situations often frequently alternately occur.

If utilize full-automatic or automanual mechanical mount that positive temperature coefficient thermistor and a pair of pin are pressed in the aforementioned corresponding installation position in starter cover, just the problems referred to above can be eliminated so.But, because the structure of a pair of pin is comparatively special, for example left pin has one for being the left pin reed of " < " shape with the shape of a side electrical contact of positive temperature coefficient thermistor, and right pin has one for being the right pin reed of " > " shape and left and right pin reed high resilience (conventionally being made by copper sheet) with the shape of the opposite side electrical contact of positive temperature coefficient thermistor.So in the time left and right pin being pressed in the pin installation position in starter cover, left and right pin reed because of suffer the pin reed chamber in starter cover chamber wall obstruction to pin enter pin installation position produce interference effect, forcibly pin is pressed into pin installation position if ignored this interference effect factor, so very easily undermine pin reed, make pin bulk deformation, and even pin reed is separated with pin, cause startor for refrigeration compressor electric machine to be scrapped.Therefore, how when left and right pin is pressed into the pin installation position in starter cover, applies and use towards the active force of the direction displacement of positive temperature coefficient thermistor installation position the position that left and right pin reed is entered separately in the lump with left and right pin and be undoubtedly the key problem in technology of semi-automatic assembling device to left and right pin reed, but in current disclosed patent and non-patent literature, be showed no all referential technology enlightenments.

For above-mentioned prior art, the applicant has done lasting and useful exploration and test repeatedly, has finally formed technical scheme described below.

Summary of the invention

Task of the present invention be to provide a kind of contribute to use to left and right pin reed applies clamping force ensure that left and right pin reed enters the startor for refrigeration compressor electric machine semi-automatic assembling device in the installation position separately in starter cover in company with left and right pin respectively simultaneously.

Task of the present invention completes like this, and a kind of startor for refrigeration compressor electric machine semi-automatic assembling device comprises the workbench by one group of work stage support foot supporting, one sliding stand, this sliding stand is located on described workbench slidably, sliding stand towards on a side and be provided with starter cover location backup plate and mould seat board along the length direction of sliding stand with interval state, the quantity of mould seat board equates with the quantity of starter cover location backup plate, and each starter cover plate location backup plate is assigned one piece of mould seat board, the mold mechanism that quantity equates with the quantity of described mould seat board, and this mold mechanism is slidably matched with the state and the mould seat board that move up and down, one cover pressing mechanism, this cover pressing mechanism is arranged at the left side of described workbench with airborne, one sliding stand draw cylinder, the middle position in the left side of this sliding stand draw cylinder and described workbench is fixed, and the sliding stand draw cylinder post of this sliding stand draw cylinder is connected with the middle position in the left side of described sliding stand, be arranged on described workbench left side and corresponding to a pushing cover acting cylinder fixed head of the below of described cover pressing mechanism, this pushing cover acting cylinder fixed head towards under a side and be provided with the pushing cover acting cylinder equating with the quantity of mold mechanism corresponding to the position of described mold mechanism, the pushing cover acting cylinder post of this pushing cover acting cylinder is towards upper, feature is: on described sliding stand and in the position on the left side corresponding to described mould seat board and right side, be respectively provided with slidably a pin reed clamp mechanism matching with described mold mechanism, and on sliding stand and be provided with corresponding to the position between two adjacent pin reed clamp mechanism be connected with pin reed clamp mechanism for making pin reed clamp mechanism towards the direction displacement of described mould seat board or towards the jaw seat driving mechanism of direction displacement that deviates from mould seat board, described pin reed clamp mechanism comprises guide block, slide block, jaw seat and jaw, guide block is fixed on described sliding stand, slide block and guide block are slidably matched, jaw seat and slide block are fixed, respectively be extended with a jaw seat leg in the both sides of jaw seat and in position to correspond to each other, jaw seat leg is slidably matched with the jaw pin sliding tray being opened on sliding stand, the right-hand member of jaw and jaw seat are fixed, and left end leans out the direction stretching, extension of jaw seat towards described mold mechanism, described jaw seat driving mechanism is corresponding to being connected between the jaw seat leg of the jaw seat of two adjacent pin reed clamp mechanism and with jaw seat leg, wherein: the shape of cross section of described guide block is swallow-tail form, form and have shape of cross section to be the guide block sliding tray of swallow-tail form towards a side of guide block and in the position corresponding to guide block at described slide block, this guide block sliding tray and guide block are slidably matched.

In a specific embodiment of the present invention, the edge of the front side of described workbench and be positioned at workbench towards on surface be fixed with a sliding stand fromer rail, and the edge of the rear side of workbench and be positioned at equally workbench towards on surface be fixed with a sliding stand rear rail, the forward and backward guide rail of sliding stand is parallel, the front side of described sliding stand and described sliding stand fromer rail are slidably matched, and the rear side of sliding stand and described sliding stand rear rail are slidably matched

In another specific embodiment of the present invention, respectively be fixed with a sliding stand fromer rail slide block at the two ends of the front side of described sliding stand, and be respectively fixed with a sliding stand rear rail slide block at the two ends of the rear side of sliding stand, sliding stand fromer rail slide block and described sliding stand fromer rail are slidably matched, and sliding stand rear rail slide block and described sliding stand rear rail are slidably matched.

In another specific embodiment of the present invention, form and have a starter cover edge to shelve cavity on the top of described starter cover location backup plate, four bights at described mould seat board respectively offer guide rod sliding eye, in guide rod sliding eye, be provided with a guide pin bushing, on described sliding stand and offering the guide rod resigning hole that runs through sliding stand corresponding to the position of guide rod sliding eye, described mold mechanism comprises die ontology, positive temperature coefficient thermistor positioning seat and guide rod connecting plate, die ontology is corresponding to the top of described mould seat board, at this die ontology towards a side of mould seat board and be fixed with the guide rod that quantity equates with the quantity of guide rod sliding eye corresponding to the position of described guide rod sliding eye, guide rod and described guide pin bushing are slidably matched and are stretched over the below of sliding stand through described guide rod resigning hole, positive temperature coefficient thermistor positioning seat is formed in the middle position of die ontology towards a upper side, this positive temperature coefficient thermistor positioning seat forms has one for holding the positive temperature coefficient thermistor container cavity of positive temperature coefficient thermistor of motor starter, on the left chamber wall of this positive temperature coefficient thermistor container cavity, form and have a left pin reed slot to make way, there is a right pin reed slot to make way and form on the right chamber wall of positive temperature coefficient thermistor container cavity, guide rod connecting plate is positioned at the below of described sliding stand, and be connected with described guide rod, on guide rod, be arranged with die ontology back-moving spring, the upper end of die ontology back-moving spring is bearing in the side of sliding stand towards guide rod connecting plate, and the lower end of die ontology back-moving spring is bearing in the side of guide rod connecting plate towards sliding stand, wherein: at described die ontology towards the left side of one end of described starter cover location backup plate and right side and respectively offer a pin positioner installing hole in position to correspond to each other, in the pin positioner installing hole in left side, be provided with a left pin positioner, and in the pin positioner installing hole on right side, be provided with a right pin positioner, form and have a diameter to be greater than the push-plate of the diameter of pushing cover acting cylinder post at the end of the pushing cover acting cylinder post of described pushing cover acting cylinder, this push-plate and described guide rod connecting plate towards under a side corresponding, on described sliding stand and in the position on the left side corresponding to described mould seat board and right side, respectively offer jaw pin sliding tray, the jaw seat leg of described jaw seat and jaw pin sliding tray are slidably matched, described jaw corresponding to the described pin reed clamp mechanism on the left of mould seat board is corresponding with described left pin reed slot to make way, and corresponding with described right pin reed slot to make way corresponding to the jaw of the pin reed clamp mechanism on mould seat board right side, described jaw seat driving mechanism is arranged on the edge of the length direction of sliding stand.

In another specific embodiment of the present invention, described left pin positioner comprises left sliding shoe, left sliding shoe back-moving spring and left pin locating dowel, left sliding shoe is slidably arranged in the described pin positioner installing hole in the left side that is positioned at described die ontology, on left sliding shoe, offer a left pin locating dowel hole, left sliding shoe back-moving spring is arranged in the pin positioner installing hole in described left side, one end of this left sliding shoe back-moving spring is bearing on the hole diapire of pin positioner installing hole, and the other end is bearing on left sliding shoe, the lower end of left pin locating dowel and left pin locating dowel hole are fixed, and upper end leans out the top of described die ontology, described right pin positioner comprises right sliding shoe, right sliding shoe back-moving spring and right pin locating dowel, right sliding shoe is slidably arranged in the described pin positioner installing hole on the right side that is positioned at described die ontology, on right sliding shoe, offer a right pin locating dowel hole, right sliding shoe back-moving spring is arranged in the pin positioner installing hole on described right side, one end of this right sliding shoe back-moving spring is bearing on the hole diapire of pin positioner installing hole, and the other end is bearing on right sliding shoe, the lower end of right pin locating dowel and right pin locating dowel hole are fixed, and upper end leans out the top of described die ontology, wherein: on described die ontology and offering a left pin locating dowel sliding eye corresponding to the position of described left pin locating dowel, and offering a right pin locating dowel sliding eye corresponding to the position of described right pin locating dowel, described left pin locating dowel leans out the top of die ontology by way of left pin locating dowel sliding eye, and described right pin locating dowel leans out the top of die ontology by way of right pin locating dowel sliding eye, the left side of length direction of described die ontology and the middle position on right side each form have the jaw chamber of stepping down, match in described jaw and the jaw chamber of stepping down, described jaw seat driving mechanism be arranged on described sliding stand length direction the below of edge.

Also have in a specific embodiment of the present invention, described pushing cover acting cylinder is cylinder or oil cylinder.

More of the present invention and in a specific embodiment, described jaw seat driving mechanism comprises that jaw seat drives acting cylinder and jaw seat leg connecting plate, jaw seat drives acting cylinder to fix with sliding stand below the edge of the length direction corresponding to described sliding stand, this jaw seat drives the jaw seat of acting cylinder to drive acting cylinder post towards described jaw seat, the middle part of jaw seat leg connecting plate and jaw seat drive acting cylinder post to be connected, and the two ends of jaw seat leg connecting plate respectively the described jaw seat leg of the jaw seat of the described pin reed clamp mechanism adjacent with two be connected.

In of the present invention and then a specific embodiment, it is cylinder or oil cylinder that described jaw seat drives acting cylinder.

Of the present invention again more and in a specific embodiment, described cover pressing mechanism comprises the first column, the second column, gland acting cylinder fixed head, gland acting cylinder and cover clamp, the front end in the left side of the length direction of the first column and described workbench is fixed, the rear end in the left side of the length direction of the second column and workbench is fixed, and corresponding with the first column, the front end of gland acting cylinder fixed head and the top of the first column are fixed, and the rear end of gland acting cylinder fixed head and the top of the second column are fixed, and this gland acting cylinder fixed head is the top corresponding to described pushing cover acting cylinder fixed head with airborne, the quantity of gland acting cylinder equates with the quantity of described mold mechanism, and be arranged on gland acting cylinder fixed head in the position corresponding with mold mechanism, the gland acting cylinder post of this gland acting cylinder is towards lower and through gland acting cylinder fixed head, cover clamp is connected with gland acting cylinder post in the position corresponding to below gland acting cylinder fixed head, this cover clamp towards under a side be fixed with the gland pin and the starter cover briquetting that equate with the quantity of described mold mechanism.

In again of the present invention and then a specific embodiment, described gland acting cylinder is cylinder or oil cylinder.

Technical scheme provided by the invention can apply the active force towards the direction of mold mechanism to the left pin reed of left pin and the right pin reed of right pin of needs assembling by the jaw of the pin reed clamp mechanism of the left and right side corresponding to mould seat board simultaneously, and the state that makes left and right pin reed be able to act in agreement with left and right pin enters in the corresponding installation position in starter cover.

Brief description of the drawings

Fig. 1 is embodiments of the invention structure chart.

Application examples schematic diagram when Fig. 2 is Fig. 1 Standard motor starter.

Detailed description of the invention

For the auditor that the makes Patent Office especially public can be expressly understood technical spirit of the present invention and beneficial effect more, applicant elaborates the mode with embodiment below, but be not all the restriction to the present invention program to the description of embodiment, any done according to the present invention design only for pro forma but not substantial equivalent transformation all should be considered as technical scheme category of the present invention.

The concept of every directionality that relates to upper and lower, left and right, front and rear (or claiming directionality) is all for the residing location status of figure being described in the following description, object is to facilitate the public's understanding, thereby can not be understood as being particularly limited technical scheme provided by the invention.

Embodiment:

Refer to Fig. 1, provided a workbench 1, this workbench 1 has one group of stage support pin 13(Fig. 2 and shows), this group stage support pin 13 is configured to the frame of workbench 1.Taking the location status shown in Fig. 1 as example, the edge of the front side of workbench 1 and be positioned at workbench 1 towards on surface be fixed with a shape of cross section and be preferably the sliding stand fromer rail 11 of swallow-tail form, and the edge of the rear side of workbench 1 and be positioned at equally workbench 1 towards on surface be fixed with a shape of cross section and be preferably the sliding stand rear rail 12 of swallow-tail form.Certainly, the forward and backward guide rail the 11, the 12nd of sliding stand, parallel.

Provided a sliding stand 2, the front side of this sliding stand 2 and aforesaid sliding stand fromer rail 11 are slidably matched, and the rear side of sliding stand 2 and aforementioned sliding stand rear rail 12 are slidably matched.Particularly, be that left end and right-hand member are respectively fixed a sliding stand fromer rail slide block 22 with fromer rail slide block hold-down screw 221 at the two ends of the front side of sliding stand 2, and be that left end and each end are respectively fixed a sliding stand rear rail slide block 23 with rear rail slide block hold-down screw 231 at the two ends of sliding stand 2 rear sides.Sliding stand fromer rail slide block 22 is slidably matched by the dovetail groove on it and sliding stand fromer rail 11, and sliding stand rear rail slide block 23 is slidably matched by the dovetail groove on it and sliding stand rear rail 12.Thereby under the work of the sliding stand draw cylinder platform 6 that also will mention below under external force, can make sliding stand 2 follow sliding stand fromer rail 11 and sliding stand rear rail 12 slides to the left or to the right simultaneously, meet the alternating movement requirement of sliding stand 2 between two different stations.

As shown in Figure 1, aforesaid sliding stand 2 towards on a side towards on surface and the middle position that is positioned at sliding stand 2 be fixed with starter cover location backup plate 21 from front side to the rear side of sliding stand 2 with interval state.Form and have a starter cover edge to shelve cavity 211 on the top of starter cover location backup plate 21.In the present embodiment, the quantity that shows starter cover location backup plate 21 is four, thereby shows to meet the matching requirements to four motor starters, but this quantity is not subject to illustrating number quantitative limitation, because as required and changeable.Distance between the backup plate 21 of adjacent starter location equates.

Aforesaid sliding stand 2 towards on a side towards on surface and the middle position that is positioned at equally sliding stand 2 be fixed with mould seat board 26 from front side to the rear side of sliding stand 2 with interval state, the quantity of this mould seat board 26 equates with the quantity of starter cover location backup plate 21, and each starter cover location backup plate 21 is assigned one piece of mould seat board 26, more precisely, each piece of starter cover location backup plate 21 is attended by one piece of mould seat board 26(and is specifically illustrated by Fig. 1).

Provide the mold mechanism 3(also equating with the quantity of mould seat board 26 equating with the quantity of aforementioned starter cover location backup plate 21 and had in the present embodiment four), this mold mechanism 3 is following the position in each piece of starter cover location backup plate 21 to be slidably matched with the state and the mould seat board 26 that move up and down, and Fig. 1 shows first mold mechanism 3 and be close to starter cover and locate the situation at the position of the rear side of backup plate 21.

As shown in Figure 1, the geometry of aforesaid mould seat board 26 is the shape of square substantially, four bights at this mould seat board 26 respectively offer a guide rod sliding eye 261, and in guide rod sliding eye 261, be provided with guide pin bushing 2611, on aforesaid sliding stand 2 and offering the guide rod resigning hole 24(Fig. 2 that runs through sliding stand 2 corresponding to the position of guide rod sliding eye 261, show).

For the ease of public understanding the present invention, applicant figure 1 illustrates the starter cover 91 of the structural system that belongs to startor for refrigeration compressor electric machine 9, positive temperature coefficient thermistor 92(industry custom claims PTC), there is the left pin 93 and the right pin 94 with right pin reed 941 of left pin reed 931, positive temperature coefficient thermistor 92, the left pin 93 with left pin reed 931 is loaded in starter cover 91 with the right pin 94 with right pin reed 941, form and have positive temperature coefficient thermistor installation position (installation cavity) because have in starter cover 91, left pin and left pin reed installation position thereof (being left pin jack and left pin reed chamber) and right pin and right pin reed installation position (being right pin installing hole and right pin reed chamber) thereof, and left pin 93 is positioned at the left side of positive temperature coefficient thermistor 92, the left pin reed 931 of this left pin 93 contacts with the left side wall of positive temperature coefficient thermistor 92, and right pin 94 is positioned at the right side of positive temperature coefficient thermistor 92, the right pin reed 941 of this right pin 94 contacts with the right side wall of positive temperature coefficient thermistor 92, after installation, fixed chimeric to starter cover 91 and housing (not shown) by workman.Because the startor for refrigeration compressor electric machine 9 of this structure belongs to known technology, for example can emphasis be ZL200620075880.X(notification number: CN200947583Y referring to the patent No. of having mentioned above), thereby the applicant no longer launches to describe.

Above mentioned mold mechanism 3 preferably but not the structure being definitely limited to is as follows: comprise die ontology 31, positive temperature coefficient thermistor positioning seat 32 and guide rod connecting plate 33, die ontology 31 is corresponding to the top of aforementioned mould seat board 26, this die ontology 31 towards a side of mould seat board 26 towards under a side and be fixed with tetra-of the guide rod 311(that quantity equates with guide rod sliding eye 261 quantity (four) corresponding to the position of aforementioned guide rod sliding eye 261), guide rod 311 is slidably matched with guide pin bushing 2611 and the lower end of guide rod 311 is stretched over the below of sliding stand 2 through guide rod resigning hole 24.Positive temperature coefficient thermistor positioning seat 32 is formed in the middle position of die ontology 31 towards a upper side, this positive temperature coefficient thermistor positioning seat 32 forms has one for holding the positive temperature coefficient thermistor container cavity 321 of positive temperature coefficient thermistor 92 of the startor for refrigeration compressor electric machine 9 of being illustrated by Fig. 1, on the left chamber wall of this positive temperature coefficient thermistor container cavity 321, form a left pin reed slot to make way 3211 for matching with the left pin reed 931 of the left pin 93 of startor for refrigeration compressor electric machine 9, there is a right pin reed slot to make way 3212 for matching with the right pin reed 941 of the right pin 94 of startor for refrigeration compressor electric machine 9 and form on the right chamber wall of positive temperature coefficient thermistor container cavity 321.Guide rod connecting plate 33 is positioned at the below of aforementioned sliding stand 2, and fix with the end, lower end of aforementioned guide rod 311, the lower end and the guide rod connecting plate 33 that is to say guide rod 311 are fixing, on guide rod 311, be arranged with tetra-guide rods 311 of die ontology back-moving spring 3111(and be all arranged with one piece of die ontology back-moving spring 3111), the upper end of die ontology back-moving spring 3111 be bearing in sliding stand 2 towards under a side be bearing in the side of sliding stand 2 towards guide rod transmit plate 33, and the lower end of die ontology back-moving spring 3111 is bearing in and is bearing in the side of guide rod connecting plate 33 towards sliding stand 2 on guide rod connecting plate 33.

As shown in Figure 1, be the front end left side of location status shown in Fig. 1 and right side towards one end of starter cover location backup plate 21 at aforementioned die ontology 31 and respectively offer a pin positioner installing hole 312(in position to correspond to each other and also can be described as sliding shoe hole, as follows), in the pin positioner installing hole 312 in left side, be provided with a left pin positioner 313, and in the pin positioner installing hole 312 on right side, be provided with a right pin positioner 314.

Aforesaid left pin positioner 313 comprises left sliding shoe 3131, left sliding shoe back-moving spring 3132 and left pin locating dowel 3133, left sliding shoe 3131 is slidably arranged in the pin positioner installing hole 312 in the left side that is positioned at aforementioned die ontology 31, on left sliding shoe 3131, offer a left pin locating dowel hole 31311, left sliding shoe back-moving spring 3132 is arranged in the pin positioner installing hole 312 in left side, one end of this left sliding shoe back-moving spring 3132 is bearing on the hole diapire of pin positioner installing hole 312, and the other end is bearing on left sliding shoe 3131, the lower end of left pin locating dowel 3133 and left pin locating dowel hole 31311 are fixing, and upper end leans out the top of aforesaid die ontology 31, aforesaid right pin positioner 314 comprises right sliding shoe 3141, right sliding shoe back-moving spring 3142 and right pin locating dowel 3143, right sliding shoe 3141 is slidably arranged in the aforementioned pin positioner installing hole 312 on the right side that is positioned at die ontology 31, on right sliding shoe 3141, offer a right pin locating dowel hole 31411, right sliding shoe back-moving spring 3142 is arranged in the pin positioner installing hole 312 on right side, one end of this right sliding shoe back-moving spring 3142 is bearing on the hole diapire of pin positioner installing hole 312, and the other end is bearing on right sliding shoe 3141, the lower end of right pin locating dowel 3143 and right pin locating dowel hole 31411 are fixing, and upper end leans out the top of aforesaid die ontology 31.As shown in Figure 1, on die ontology 31 and offering an oval-shaped left pin locating dowel sliding eye 315 corresponding to the position of left pin locating dowel 3133, and offering the right pin locating dowel sliding eye 316 of a same ovalize corresponding to the position of aforementioned right pin locating dowel 3143, aforesaid left pin locating dowel 3133 leans out the top of die ontology 31 by way of left pin locating dowel sliding eye 315, and aforesaid right pin locating dowel 3143 leans out the top of die ontology 31 by way of right pin locating dowel sliding eye 316.And, the left side of length direction of aforementioned die ontology 31 and the middle position on right side each form have the jaw chamber 317 of stepping down, match in pin reed clamp mechanism 4 and the jaw that will describe the below chamber 317 of stepping down, and be slidably matched with the jaw pin sliding tray 25 being opened on sliding stand 2 simultaneously, the position of the jaw seat driving mechanism 8 that also will describe below on sliding stand 2 be positioned at sliding stand 2 towards under the edge of a side.

Show above the pin reed clamp mechanism 4 corresponding to left side and the right side of mould seat board 26, as aforementioned, this pin reed clamp mechanism 4 is slidably matched with aforementioned jaw pin sliding tray 25, and match with the aforementioned jaw chamber 317 of stepping down, that is to say that pin reed clamp mechanism 4 can be towards the direction slip of die ontology 31 or towards the direction slip that deviates from die ontology 31 on sliding stand 2, in the time that the direction towards die ontology 31 is slided, match with the aforesaid jaw chamber 317 of stepping down, otherwise with example.

From the signal of Fig. 1, with respect to a mold mechanism 3, pin reed clamp mechanism 4 has two, so four total eight pin reed clamp mechanism 4 that coordinate with it of mold mechanism 3, in eight pin reed clamp mechanism 4, have four pin reed clamp mechanism 4 to be slidably arranged in the left side of sliding stand 2 and corresponding with the jaw in the aforementioned die ontology 31 left sides chamber 317 of stepping down, and another four pin reed clamp mechanism 4 are slidably arranged in the right side of sliding stand 2 and corresponding with the jaw on the aforementioned die ontology 31 right sides chamber 317 of stepping down equally.In addition, known according to the superincumbent explanation of applicant, in the time of assembling startor for refrigeration compressor electric machine 9, the left pin reed 931 of left pin 93 is corresponding to aforementioned left pin reed slot to make way 3211, and the right pin reed 931 of right pin 94 is corresponding to aforementioned right pin reed slot to make way 3212, to left and right pin reed 931,941 is clamped to (seizing on both sides by the arms) by the aforementioned pin reed clamp mechanism 4 on left side and right side simultaneously.

Because the structure of aforesaid eight pin reed clamp mechanism 4 is identical, therefore applicant selects one (corresponding to one of them in four of mould seat board 26 right sides) and is described as follows, this pin reed clamp mechanism 4 comprises guide block 41, slide block 42, jaw seat 43 and jaw 44, guide block 41(also can claim slider guide) adopt guide block hold-down screw 411 to be fixed on sliding stand 2, be fixed on sliding stand 2 towards a upper side, slide block 42 is slidably matched with guide block 41, jaw seat 43 use jaw seat hold-down screws 432 are fixing with slide block 42, respectively form and have a jaw seat leg 431 to downward-extension in the both sides of this jaw seat 43 and in position to correspond to each other, jaw seat leg 431 is connected with the jaw seat driving mechanism 8 that also will describe below, and be slidably matched with the aforementioned jaw pin sliding tray 25 being opened on sliding stand 2, the right-hand member of jaw 44 offers jaw adjustment tank 441, with jaw hold-down screw 4411 in the position corresponding to jaw adjustment tank 441 by the right-hand member of jaw 44 with to be preset in jaw seat screw on jaw seat 43 433 fixing, the left end of jaw 44 lean out jaw seat 43 towards aforesaid jaw step down chamber 317 direction stretch, and corresponding with the jaw chamber 317 of stepping down.Shown in figure, the shape of whole jaw 44 is zigzag substantially.Preferably, the shape of cross section of aforementioned guide block 41 is that section configuration is swallow-tail form, and forming the guide block sliding tray 412 that has shape of cross section to be swallow-tail form towards a side of guide block 41 and in the position corresponding to guide block 41 at slide block 42, this guide block sliding tray 412 is slidably matched with guide block 41.

There is shown the situation that is equipped with the jaw seat driving mechanism 8 that also will describe in detail below between every two adjacent pin reed clamp mechanism 4, order about two pin reed clamp mechanism 4 by a jaw seat driving mechanism 8, so the quantity of jaw seat driving mechanism 8 has four simultaneously.

Provide cover pressing mechanism 5, this cover pressing mechanism 5 is arranged on the left side of aforementioned workbench 1 with airborne, this cover pressing mechanism 5 comprises the first column 51, the second column 52, gland acting cylinder fixed head 53, gland acting cylinder 54 and cover clamp 55, the first column 51 has longitudinally walk abreast each other a pair of, be fixed on and the front end in the left side of the length direction of workbench 1 with vertical state with the state of towering, the second column 52 has parallel a pair of equally, be fixed on equally the rear end in the left side of the length direction of workbench 1 with vertical state with the state of towering, and corresponding with the first column 51.The front end of gland acting cylinder fixed head 53 is fixed towards one end of the first column 51 and the top of the first column 51, and the rear end of gland acting cylinder fixed head 53 is fixed towards one end of the second column 52 and the top of the second column 52, and this gland acting cylinder fixed head 53 with airborne the top corresponding to the pushing cover acting cylinder fixed head 7 that also will illustrate below.The quantity of gland acting cylinder 54 equates (the present embodiment is four) with the quantity of aforementioned mold mechanism 3, and corresponding to being arranged on gland acting cylinder fixed head 53 with the position of mold mechanism 3, the gland acting cylinder post 541 of this gland acting cylinder 54 is towards lower and through gland acting cylinder post resigning hole (not giving Reference numeral in figure) pre-on gland acting cylinder fixed head 53.Cover clamp 55 is connected with gland acting cylinder post 541 in the position corresponding to below gland acting cylinder fixed head 53, this cover clamp 55 towards under a side be fixed with the gland pin 551 and the starter cover briquetting 552 that equate with the quantity of aforementioned mold mechanism 3.

In the present embodiment, aforementioned gland acting cylinder 54 is selected with cylinder, if but use oil cylinder instead, should be considered as so equivalence and substitute and still belong to technology contents category disclosed by the invention.

Provide a sliding stand draw cylinder 6, this sliding stand draw cylinder 6 is fixed with the middle position of the length direction in the left side of aforementioned workbench 1, specifically, by draw cylinder seat 62 and by means of draw cylinder seat hold-down screw 621 by sliding stand draw cylinder 6 and workbench 1 towards under a side fix, and the sliding stand draw cylinder post 61 of this sliding stand draw cylinder 6 shows by cylinder post connecting plate 611(Fig. 2) be connected with the middle position in the left side of aforementioned sliding stand 2.So in the time that sliding stand draw cylinder 6 is worked, for example make sliding stand draw cylinder post 61 to cylinder left dislocation during to cylinder body intrinsic displacement, just by sliding stand draw cylinder post 61 sliding stand 2 is being followed (along) aforesaid sliding stand left rail 11 and the right guide rail 12 of sliding stand be to left dislocation, and in the time that sliding stand 2 is moved to the mold mechanism 3 that makes to carry on it corresponding to position below aforementioned cover pressing mechanism 5 left, owing to being provided with before this positive temperature coefficient thermistor 92 on mold mechanism 3, left pin 93 and right pin 94 and the starter cover 91 arranging as benchmark taking starter cover location backup plate 21, thereby matched with mold mechanism 3 by cover pressing mechanism 5 and starter cover 91 is applied towards the direction displacement of mold mechanism 3 to the active force of mould seat board 26 displacements, make aforesaid positive temperature coefficient thermistor 92, left pin 93 and right pin 94 are transferred in the corresponding installation position in starter cover 91, corresponding installation position refers to: be preset in the positive temperature coefficient thermistor chamber in starter cover 91, the left pin reed chamber of left pin holes and left pin 93, the right pin reed chamber of right pin holes and right pin 94.

Please still see Fig. 1, above mentioned pushing cover acting cylinder fixed head 7 belows corresponding to aforementioned cover pressing mechanism 5, corresponding to the below of the cover clamp 55 of cover pressing mechanism 5 and fix with the left side of workbench 1, this knock-out pad acting cylinder fixed head 7 towards under a side and be fixed with quantity in the position corresponding to aforementioned guide rod connecting plate 33 with pushing cover acting cylinder hold-down screw 712 and equate the pushing cover acting cylinder 71 equating with the quantity of mold mechanism 3 with the quantity of guide rod connecting plate 33, the pushing cover acting cylinder post 711 of this pushing cover acting cylinder 71 is towards upper, and in the time that pushing cover acting cylinder post 711 leans out the pushing cover acting cylinder post resigning hole 72 on pushing cover acting cylinder fixed head 7 and touches aforementioned guide rod connecting plate 33, just make guide rod connecting plate 33 under the active force that overcomes die ontology back-moving spring 3111 to top offset, otherwise with example (also will describe in detail below).

Preferably, form and have a diameter to be greater than a push-plate 7111 of the diameter of pushing cover acting cylinder post 711 at the end of aforementioned pushing cover acting cylinder post 711, this push-plate 7111 and aforementioned guide rod connecting plate 33 towards under a side corresponding, the effect of push-plate 7111 is to increase and the contact area of guide rod connecting plate 33.

The position of above mentioned jaw seat driving mechanism 8 on sliding stand 2 in sliding stand 2 towards under a side, the left side of sliding stand 2 and the edge on right side and towards under a side respectively with horizontally-arranged state (horizontally-arranged state refers to that jaw seat drives acting cylinder post 811 to be the level of state), two jaw seat driving mechanisms 8 are set.Elaborate for a jaw seat driving mechanism 8 below, this jaw seat driving mechanism 8 comprises that jaw seat drives acting cylinder 81 and jaw seat leg connecting plate 82, jaw seat drives acting cylinder 81 passing through its acting cylinder holder 812 and fixing with sliding stand 2 by means of acting cylinder holder screw 8121 towards the edge of the side under corresponding to aforementioned sliding stand 2, and this jaw seat drives the jaw seat of acting cylinder 81 to drive the acting cylinder post 811 jaw seats 43 towards aforementioned pin reed clamp mechanism 4.The middle part of the length direction of jaw seat leg connecting plate 82 drives the end of acting cylinder post 811 to be connected with jaw seat, and screw the end through jaw seat leg connecting plate 82 at jaw seat driving acting cylinder post 811 with limiting nut 8111(restriction nut 8111) limit, the two ends of the jaw seat leg connecting plate 82 respectively jaw seat leg 431 of the jaw seat 43 of the pin reed clamp mechanism 4 adjacent with two are fixedly connected with.Hence one can see that, in the time that a jaw seat driving mechanism 8 is worked, just can make the jaw seat 43 of two pin reed clamp mechanism 4 move simultaneously.

In the present embodiment, aforesaid sliding stand draw cylinder 6, pushing cover acting cylinder 71 and jaw seat drive acting cylinder 81 all to adopt cylinder, as the description to gland acting cylinder 54, if replace cylinder with oil cylinder, be considered as equally equivalence and change and belong to technology contents category disclosed by the invention.

Application examples:

Refer to Fig. 2 and in conjunction with Fig. 1, applicant describes positive temperature coefficient thermistor 92, left pin 93 and right pin 94 pack the process in starter cover 91 into, first worked by sliding stand draw cylinder 6, sliding stand draw cylinder post 61 stretches out outside cylinder body, sliding stand 2 is slided to the right along aforesaid sliding stand fromer rail 11 and sliding stand rear rail 12, and slide into and be the location status shown in Fig. 1, sliding stand draw cylinder 6 quits work, then will in positive temperature coefficient thermistor 92, be inserted in the positive temperature coefficient thermistor container cavity 321 of positive temperature coefficient thermistor positioning seat 32 of mold mechanism 3 by workman, again left pin 93 is nested with in right pin locating dowel 3133, the left pin reed 931 of left pin 93 is now corresponding to aforesaid left pin reed slot to make way 3211, right pin 94 is nested with in right pin locating dowel 3143, the right pin reed 941 of right pin 94 is now corresponding to aforesaid right pin reed slot to make way 3212, a left side now, right pin reed 931, 941 respectively with the left side of positive temperature coefficient thermistor 92, right side correspondence and contact.When having completed, four die ontologies 31 are all arranged to positive temperature coefficient thermistor 92, left, right pin 93, after 94 work, (specifically illustrated by Fig. 1), drive jaw seat driving mechanism 8 to work, specifically: jaw seat drives the jaw seat of acting cylinder 81 to drive acting cylinder post 811 to stretch out outside the cylinder body of jaw seat driving acting cylinder 81, drive acting cylinder post 811 to drive jaw seat leg connecting plate 82 by jaw seat, thereby drive jaw seat leg 431 by jaw seat leg connecting plate 82, because jaw seat 43 is fixing with slide block 42 by jaw seat hold-down screw 432, again because slide block 42 and guide block 41 are slidably matched, therefore drive jaw seat 43 by jaw seat leg 431, and moved towards the direction of mold mechanism 3 with movable slider 42 by jaw seat 43, towards the direction displacement of die ontology 31.Corresponding with the jaw chamber 317 of stepping down towards one end of die ontology 31 due to the left end of jaw 44, and the right-hand member of jaw 44 is fixing towards one end and the jaw seat 43 of jaw seat 43, thereby when jaw seat 43 is during to the direction displacement of mold mechanism 3, jaw 44 is corresponding displacement also, the left end that makes jaw 44 in the position in the chamber 317 of stepping down corresponding to jaw by a left side, right pin 93, a left side of 94, right pin reed 931, 941 clamp (limiting), specifically, leant out the end of one end of jaw seat 43 by jaw 44 to a left side, right pin reed 931, 941 apply the active force towards the direction of positive temperature coefficient thermistor container cavity 321, to ensure a left side, right pin reed 931, 941 with starter cover 91 on a left side, right pin reed installation position (having done above to illustrate) is fully corresponding, the i.e. abundant both sides corresponding to positive temperature coefficient thermistor 92.In the process left and right pin reed 931,941 being clamped at jaw 44, left and right pin 93,94 there will be microdisplacement, thus by left and right pin locating dowel 3133,3134 respectively the corresponding displacement in left and right pin locating dowel sliding eye 315,316 be adaptability displacement and being protected.Again starter cover 91 is placed in taking starter cover location backup plate 21 as benchmark on (back-off in) positive temperature coefficient thermistor positioning seat 32, then sliding stand draw cylinder 6 task (reverse operation) again, sliding stand draw cylinder post 61 is to cylinder body intrinsic displacement, drive sliding stand 2 slide (taking location status shown in Fig. 1 as example) left, in the time that sliding stand 2 slides into mold mechanism 3 on it corresponding to the position of cover pressing mechanism 5 left,, while sliding into starter cover 91 corresponding to the position of cover pressing mechanism 5, sliding stand draw cylinder 6 quits work.Now, cover pressing mechanism 5 enters duty, the gland acting cylinder post 541 of gland acting cylinder 54 stretches outside the cylinder body of gland acting cylinder 54, taking shown position state as example, gland acting cylinder post 541 stretches downwards, drive cover clamp 55 descending, starter cover 91 is applied to downward power by the gland pin 551 on cover clamp 55 and starter cover briquetting 552 simultaneously, make to be previously positioned at the positive temperature coefficient thermistor 92 on mold mechanism 3, left pin 93, right pin 94, the left pin reed 931 of left pin 93 and the right pin reed 941 of right pin 94 are transferred to the default positive temperature coefficient thermistor installation position (installation position refers to chamber) being formed in shortly in starter cover 91 simultaneously, left pin installation position is left pin holes, right pin installation position is right pin holes, left pin reed installation position is left pin reed chamber and is right pin reed chamber with right pin reed installation position.Now, pushing cover acting cylinder 71 work (simultaneously working for four), pushing cover acting cylinder post 711 stretches out outside cylinder body, protrude upward, push-plate 7111 by pushing cover acting cylinder post 711 ends upwards pushes away guide rod connecting plate 33, guide rod connecting plate 33 under the state of reaction force that overcomes die ontology back-moving spring 3111 to top offset, die ontology back-moving spring 3111 now compresses and energy storage, drive guide rod 311 up by guide rod connecting plate 33, because guide rod 311 is fixing with die ontology 31, thereby by guide rod 311, die ontology 31 is upwards passed.Aforesaid positive temperature coefficient thermistor 92, left and right pin 93,94, left pin reed 931 and right pin reed 941 are fully transferred in the aforementioned corresponding installation position of starter cover 91 guaranteeing.Follow again, pushing cover acting cylinder 71 reverse operations, pushing cover acting cylinder post 711 bounces back in cylinder body, and push-plate 7111 discharges guide rod connecting plate 33.And then, gland acting cylinder 54 reverse operations, make cover clamp 55 up with aforementioned inverse process, and gland pin 551 and starter cover briquetting 552 leave starter cover 91.Simultaneously the jaw seat of jaw seat driving mechanism 8 drives acting cylinder 81 reverse operations, until jaw 44 is returned to leave the original state of left pin reed 931 and right pin reed 941, enters the holding state of next time working.In said process, when guide rod fixed head 33 release in the time that push-plate 7111 leaves guide rod fixed head 33, under the restoring force effect of die ontology back-moving spring 3111, under the state that discharges energy storage energy, guide rod connecting plate 33 is passed downwards, be advanced into the holding state of action next time for 31 times by guide rod 311 driven mold body.Follow again, by sliding stand draw cylinder 6, sliding stand 2 is passed to the location status shown in Fig. 1, by completing in the starter cover 91(starter cover 91 of startor for refrigeration compressor electric machine 9 of assembling, positive temperature coefficient thermistor 92, left and right pin 93,94 have been housed by the personnel of working online) get from, then repeat above-mentioned action and the positive temperature coefficient thermistor 92, left and right pin 93,94 and the starter cover 91 that await assembling be placed on mold mechanism 3.So repeatedly embody positive temperature coefficient thermistor 92, left pin 93 and right pin 94 are assembled in starter cover 91.

Applicant it should be noted that: if for example physical dimension of the specification of startor for refrigeration compressor electric machine 9 changes and causes starter cover 91, positive temperature coefficient thermistor 92, left pin 93 and right pin 94 that respective change occurs; as long as change the positive temperature coefficient thermistor seat 32 of corresponding mold mechanism 3, therefore do any type of variation by means of enlightenment of the present invention and all should be considered as protection scope of the present invention so.

In addition, the applicant has done the present invention the test comparing with the speed of hand assembled, and test shows that a playscript with stage directions contrive equipment can support six to eight assemblers' that are keen and quick in one's work hand assembled speed.

Claims (10)

1. a kind of startor for refrigeration compressor electric machine semi-automatic assembling device, comprises the workbench (1) by one group of work stage support foot (13) supporting; One sliding stand (2), this sliding stand (2) is located on described workbench (1) slidably, be provided with starter cover location backup plate (21) and mould seat board (26) towards a upper side and along the length direction of sliding stand (2) with interval state at sliding stand (2), the quantity of mould seat board (26) equates with the quantity of starter cover location backup plate (21), and each starter cover plate location backup plate (21) is assigned one piece of mould seat board (26); The mold mechanism (3) that quantity equates with the quantity of described mould seat board (26), and this mold mechanism (3) is slidably matched with the state and the mould seat board (26) that move up and down; One cover pressing mechanism (5), this cover pressing mechanism (5) is arranged at the left side of described workbench (1) with airborne; One sliding stand draw cylinder (6), this sliding stand draw cylinder (6) is fixed with the middle position in the left side of described workbench (1), and the sliding stand draw cylinder post (61) of this sliding stand draw cylinder (6) is connected with the middle position in the left side of described sliding stand (2); Be arranged on described workbench (1) left side and corresponding to a pushing cover acting cylinder fixed head (7) of the below of described cover pressing mechanism (5), this pushing cover acting cylinder fixed head (7) towards under a side and be provided with the pushing cover acting cylinder (71) equating with the quantity of mold mechanism (3) corresponding to the position of described mold mechanism (3), the pushing cover acting cylinder post (711) of this pushing cover acting cylinder (71) is towards upper; it is characterized in that: go up and be respectively provided with slidably in the position on the left side corresponding to described mould seat board (26) and right side a pin reed clamp mechanism (4) matching with described mold mechanism (3) at described sliding stand (2), and at sliding stand (2) upper and be provided with corresponding to the position between two adjacent pin reed clamp mechanism (4) be connected with pin reed clamp mechanism (4) for making pin reed clamp mechanism (4) towards the direction displacement of described mould seat board (26) or towards the jaw seat driving mechanism (8) of direction displacement that deviates from mould seat board (26), described pin reed clamp mechanism (4) comprises guide block (41), slide block (42), jaw seat (43) and jaw (44), guide block (41) is fixed on described sliding stand (2), slide block (42) is slidably matched with guide block (41), jaw seat (43) is fixing with slide block (42), in the both sides of jaw seat (43) and be respectively extended with a jaw seat leg (431) in position to correspond to each other, jaw seat leg (431) is slidably matched with the jaw pin sliding tray (25) being opened on sliding stand (2), the right-hand member of jaw (44) and jaw seat (43) are fixing, and left end leans out the direction stretching, extension of jaw seat (43) towards described mold mechanism (3), described jaw seat driving mechanism (8) is corresponding to being connected between the jaw seat leg (431) of the jaw seat (43) of two adjacent pin reed clamp mechanism (4) and with jaw seat leg (43), wherein: the shape of cross section of described guide block (41) is swallow-tail form, form and have shape of cross section to be the guide block sliding tray (412) of swallow-tail form towards a side of guide block (41) and in the position corresponding to guide block (41) at described slide block (42), this guide block sliding tray (412) is slidably matched with guide block (41).

2. startor for refrigeration compressor electric machine semi-automatic assembling device according to claim 1, it is characterized in that in the edge of the front side of described workbench (1) and be positioned at workbench (1) being fixed with a sliding stand fromer rail (11) towards upper surface, and in the edge of the rear side of workbench (1) and be positioned at equally workbench (1) and be fixed with a sliding stand rear rail (12) towards upper surface, before sliding stand, rear rail (11, 12) parallel, front side and the described sliding stand fromer rail (11) of described sliding stand (2) are slidably matched, and the rear side of sliding stand (2) and described sliding stand rear rail (12) are slidably matched.

3. startor for refrigeration compressor electric machine semi-automatic assembling device according to claim 2, it is characterized in that being respectively fixed with at the two ends of the front side of described sliding stand (2) a sliding stand fromer rail slide block (22), and be respectively fixed with a sliding stand rear rail slide block (23) at the two ends of the rear side of sliding stand (2), sliding stand fromer rail slide block (22) is slidably matched with described sliding stand fromer rail (11), and sliding stand rear rail slide block (23) is slidably matched with described sliding stand rear rail (12).

4. startor for refrigeration compressor electric machine semi-automatic assembling device according to claim 1, it is characterized in that forming and having a starter cover edge to shelve cavity (211) on the top of described starter cover location backup plate (21), four bights at described mould seat board (26) respectively offer guide rod sliding eye (261), in guide rod sliding eye (261), be provided with a guide pin bushing (2611), go up and offering the guide rod resigning hole (24) that runs through sliding stand (2) corresponding to the position of guide rod sliding eye (261) at described sliding stand (2), described mold mechanism (3) comprises die ontology (31), positive temperature coefficient thermistor positioning seat (32) and guide rod connecting plate (33), die ontology (31) is corresponding to the top of described mould seat board (26), at this die ontology (31) towards a side of mould seat board (26) and be fixed with the guide rod (311) that quantity equates with the quantity of guide rod sliding eye (261) corresponding to the position of described guide rod sliding eye (261), guide rod (311) and described guide pin bushing (2611) are slidably matched and are stretched over the below of sliding stand (2) through described guide rod resigning hole (24), positive temperature coefficient thermistor positioning seat (32) is formed in the middle position of die ontology (31) towards a upper side, this positive temperature coefficient thermistor positioning seat (32) forms has one for holding the positive temperature coefficient thermistor container cavity (321) of positive temperature coefficient thermistor of motor starter, on the left chamber wall of this positive temperature coefficient thermistor container cavity (321), form and have a left pin reed slot to make way (3211), there is a right pin reed slot to make way (3212) and form on the right chamber wall of positive temperature coefficient thermistor container cavity (321), guide rod connecting plate (33) is positioned at the below of described sliding stand (2), and be connected with described guide rod (311), on guide rod (311), be arranged with die ontology back-moving spring (3111), the upper end of die ontology back-moving spring (3111) is bearing in the side of sliding stand (2) towards guide rod connecting plate (33), and the lower end of die ontology back-moving spring (3111) is bearing in the side of guide rod connecting plate (33) towards sliding stand (2), wherein: at described die ontology (31) towards the left side of one end of described starter cover location backup plate (21) and right side and respectively offer a pin positioner installing hole (312) in position to correspond to each other, in the pin positioner installing hole (312) in left side, be provided with a left pin positioner (313), and in the pin positioner installing hole (312) on right side, be provided with a right pin positioner (314), form and have a diameter to be greater than the push-plate (7111) of the diameter of pushing cover acting cylinder post (711) at the end of the pushing cover acting cylinder post (711) of described pushing cover acting cylinder (71), this push-plate (7111) and described guide rod connecting plate (33) towards under a side corresponding, go up and respectively offer jaw pin sliding tray (25) in the position on the left side corresponding to described mould seat board (26) and right side at described sliding stand (2), the jaw seat leg (431) of described jaw seat (43) is slidably matched with jaw pin sliding tray (25), described jaw (44) corresponding to the described pin reed clamp mechanism (4) on the left of mould seat board (26) is corresponding with described left pin reed slot to make way (3211), and corresponding with described right pin reed slot to make way (3212) corresponding to the jaw (44) of the pin reed clamp mechanism (4) on mould seat board (26) right side, described jaw seat driving mechanism (8) is arranged on the edge of the length direction of sliding stand (2).

5. startor for refrigeration compressor electric machine semi-automatic assembling device according to claim 4, it is characterized in that described left pin positioner (313) comprises left sliding shoe (3131), left sliding shoe back-moving spring (3132) and left pin locating dowel (3133), left sliding shoe (3131) is slidably arranged in the described pin positioner installing hole (312) in the left side that is positioned at described die ontology (31), on left sliding shoe (3131), offer a left pin locating dowel hole (31311), left sliding shoe back-moving spring (3132) is arranged in the pin positioner installing hole (312) in described left side, one end of this left sliding shoe back-moving spring (3132) is bearing on the hole diapire of pin positioner installing hole (312), and the other end is bearing on left sliding shoe (3131), the lower end of left pin locating dowel (3133) and left pin locating dowel hole (31311) are fixing, and upper end leans out the top of described die ontology (31), described right pin positioner (314) comprises right sliding shoe (3141), right sliding shoe back-moving spring (3142) and right pin locating dowel (3143), right sliding shoe (3141) is slidably arranged in the described pin positioner installing hole (312) on the right side that is positioned at described die ontology (31), on right sliding shoe (3141), offer a right pin locating dowel hole (31411), right sliding shoe back-moving spring (3142) is arranged in the pin positioner installing hole (312) on described right side, one end of this right sliding shoe back-moving spring (3142) is bearing on the hole diapire of pin positioner installing hole (312), and the other end is bearing on right sliding shoe (3141), the lower end of right pin locating dowel (3143) and right pin locating dowel hole (31411) are fixing, and upper end leans out the top of described die ontology (31), wherein: go up and offering a left pin locating dowel sliding eye (315) corresponding to the position of described left pin locating dowel (3133) at described die ontology (31), and offering a right pin locating dowel sliding eye (316) corresponding to the position of described right pin locating dowel (3143), described left pin locating dowel (3133) leans out the top of die ontology (31) by way of left pin locating dowel sliding eye (315), and described right pin locating dowel (3143) leans out the top of die ontology (31) by way of right pin locating dowel sliding eye (316), the left side of length direction of described die ontology (31) and the middle position on right side each form have the jaw chamber (317) of stepping down, match in described jaw (44) and the jaw chamber (317) of stepping down, described jaw seat driving mechanism (8) be arranged on described sliding stand (2) length direction the below of edge.

6. startor for refrigeration compressor electric machine semi-automatic assembling device according to claim 1, is characterized in that described pushing cover acting cylinder (71) is cylinder or oil cylinder.

7. according to the startor for refrigeration compressor electric machine semi-automatic assembling device described in claim 1 or 4, it is characterized in that described jaw seat driving mechanism (8) comprises that jaw seat drives acting cylinder (81) and jaw seat leg connecting plate (82), jaw seat drives acting cylinder (81) fixing at below and the sliding stand (2) of the edge of the length direction corresponding to described sliding stand (2), this jaw seat drives the jaw seat of acting cylinder (81) to drive acting cylinder post (811) towards described jaw seat (43), the middle part of jaw seat leg connecting plate (82) drives acting cylinder post (811) to be connected with jaw seat, and the two ends of jaw seat leg connecting plate (82) respectively the described jaw seat leg (431) of the jaw seat (43) of the described pin reed clamp mechanism (4) adjacent with two be connected.

8. startor for refrigeration compressor electric machine semi-automatic assembling device according to claim 7, is characterized in that described jaw seat drives acting cylinder (81) for cylinder or oil cylinder.

9. startor for refrigeration compressor electric machine semi-automatic assembling device according to claim 1, it is characterized in that described cover pressing mechanism (5) comprises the first column (51), the second column (52), gland acting cylinder fixed head (53), gland acting cylinder (54) and cover clamp (55), the first column (51) is fixed with the front end in the left side of the length direction of described workbench (1), the second column (52) is fixed with the rear end in the left side of the length direction of workbench (1), and corresponding with the first column (51), the top of the front end of gland acting cylinder fixed head (53) and the first column (51) is fixed, and the top of the rear end of gland acting cylinder fixed head (53) and the second column (52) is fixed, and this gland acting cylinder fixed head (53) is the top corresponding to described pushing cover acting cylinder fixed head (7) with airborne, the quantity of gland acting cylinder (54) equates with the quantity of described mold mechanism (3), and be arranged on gland acting cylinder fixed head (53) in the position corresponding with mold mechanism (3), the gland acting cylinder post (541) of this gland acting cylinder (54) is towards lower and through gland acting cylinder fixed head (53), cover clamp (55) is connected with gland acting cylinder post (541) in the position of the below corresponding to gland acting cylinder fixed head (53), this cover clamp (55) towards under a side be fixed with the gland pin (551) and the starter cover briquetting (552) that equate with the quantity of described mold mechanism (3).

10. startor for refrigeration compressor electric machine semi-automatic assembling device according to claim 9, is characterized in that described gland acting cylinder (54) is cylinder or oil cylinder.