CN206564192U - Reactor winding terminal compression joint tool structure - Google Patents

Abstract

A kind of reactor winding terminal compression joint tool structure, including tool assembly, once tool assembly, a top die and a dip mold on one；Upper tool assembly includes a cylinder and guide pillar, and the upper surface of the cylinder has counterbore, and the piston rod is inserted in counterbore；The bottom of the cylinder, which vertically extends back, an installing plate, and the plan vertical of the guide pillar is fixed on installing plate；The lower tool assembly includes a bottom plate, a column and guide plate；The guide plate is vertically connected in the top of column, and the guide plate is provided with a positioning hole, when in running order, and the guide pillar is inserted in the positioning hole；The top die is fixed on the bottom of cylinder, and the bottom of the top die caves inward, and forms one first dovetail groove；The dip mold is fixed on the top of column, and the top of the dip mold is provided with the second dovetail groove, and first dovetail groove setting corresponding with the second dovetail groove.The utility model is easy and safe to operate, and size is accurately unified, and crimps solid and reliable, operating efficiency height.

Description

Reactor winding terminal compression joint tool structure

Technical field

The utility model is specifically related to a kind of reactor winding terminal compression joint tool structure.

Background technology

Reactor is mainly made up of iron core and coiler part, and reactor winding includes skeleton 1, coil 2 and terminal 3；Coil 2 Five big requirements are crimped between terminal 3：

(1) by two kinds of different size terminals 3 respectively with flat copper (or aluminium) wire crimp matched, two kinds of different size terminals 3 differences are：The endoporus D sizes are different to the distance between the end face of pressure connection terminal 31 L with the center of bolt hole 321；

(2) coil 2 has point of odd number layer (as shown in Fig. 1 a, Fig. 1 c) or even numbers layer (as shown in Fig. 1 b, Fig. 1 d), and the two goes out Line position is different；

(3) have two kinds of different directions between terminal 3 and flat copper (or aluminium) line crimps mode, such as：The connection end 32 of terminal 3 with The parallel crimping mode (as shown in Figure 1 a, 1 b) of flat copper (or aluminium) line and connection end 32 of terminal 3 is vertical with flat copper (or aluminium) line presses Connect mode (as shown in Fig. 1 c, Fig. 1 d)；

(4) all reactor windings 2, from the one end side A of the skeleton 1 to the distance at the center of bolt hole 321 It is S.

(5) electric current passed through is larger, and being crimped between coil and terminal must be solid and reliable, otherwise will cause heating or even burn Ruin.Therefore, manually crimped or struck tightly with iron hammer with hydraulic tongs and there will be following shortcoming：

1st, size requirement is difficult to protect just, influence subsequent handling running, or even causes to do over again；

2nd, low production efficiency, cost are high.

Utility model content

The technical problems to be solved in the utility model, is to provide a kind of reactor winding terminal compression joint tool structure.

What the utility model was realized in：A kind of reactor winding terminal compression joint tool structure, including air press, institute Air press is stated with a piston rod；Also include tool assembly, once tool assembly, a top die and a dip mold on one；On described Tool assembly includes a cylinder and guide pillar, and the upper end of the cylinder is recessed into a counterbore matched with the piston rod downwards, The piston rod is inserted in counterbore；The bottom of the cylinder, which vertically extends back, an installing plate, and the top of the guide pillar is hung down Directly it is fixed on installing plate；The lower tool assembly includes a bottom plate, a column and guide plate, and the column is erected on bottom plate； The guide plate is integrally linked to the top of column, and perpendicular with column, and the guide plate matches provided with one with the guide pillar The positioning hole of conjunction, when in running order, the guide pillar is inserted in the positioning hole；The top die is fixed on the bottom of cylinder Hold, and the bottom of the top die caves inward, and forms one first dovetail groove；The dip mold is fixed on the top of column, under this The second dovetail groove that the top of pressing mold matches with first dovetail groove provided with one, and first dovetail groove and second trapezoidal Groove is corresponding to be set.

Preferably, in addition to locating unit, the positioning unit includes a location-plate and a support, the location-plate Middle part is provided with one first opening portion；The top of the column is provided with one second opening portion, and second opening portion corresponds to described the The underfaces of two dovetail grooves is set, and the column relative to two sides cave inward into two slots, two slot, which is located at, leads It is disposed proximate to the top of plate and with guide plate；

The support includes Zuo Qiang, Hou Qiang and You Qiang that one links, and the Zuo Qiang and right wall are inserted in described two respectively In slot, the location-plate locks the front end face for paying Yu Zuoqiang and right wall by two keepers；The middle part of the rear wall is provided with one the Three opening portions, and first opening portion, the second opening portion, the 3rd opening portion are in the arrangement of " one " word.

Preferably, in addition to a terminal, the terminal includes having one on a pressure connection terminal and a connection end, and the connection end Bolt hole；

The positioning unit also includes an align member, and the align member includes corner member, two square-foots and one always Cylinder, two square-foot is respectively perpendicular to spread out and is connected on the outside of two length of sides of right angle component, and the cylinder is vertically connected at right angle structure On the inside of one length of side of part；The rear coping is provided with a square hole being engaged with the square-foot；When in running order, One spring housing is located at described in one on square-foot, and the square-foot is inserted in the square hole, and the cylinder passes through the connection end Bolt hole, the pressure connection terminal is placed in second dovetail groove.

Preferably, in addition to a skeleton, the one end of the skeleton has one side, the spiral shell of the side and the connection end The distance between keyhole is S；

The bottom of the rear wall extends back, and forms a flat board, and the rear end of the flat board is provided with a rectangular opening；The guide plate It is provided with a square hole；

The positioning unit also includes a latch, and the latch is a rectangle structure matched with the rectangular opening, The rectangle structure corresponds to the inward-facing contraction in one end of short side, forms a square matched with the square hole Section；When in running order, the rectangle structure wears the rectangular opening, and the square section is arranged in the square Kong Zhong, and the distance between the front end face of the location-plate and the cylinder are equal to the S.

Preferably, in addition to a coil, the coil has a terminal；The right part of the location-plate is additionally provided with one the 4th Opening portion, the terminal passes the 4th opening portion.

Preferably, the bottom of the cylinder is provided with one first horizontal groove, and the top die is placed in the first horizontal groove, And be connected by the realization of two tightening piece with the first horizontal groove fastening；The top of the column is provided with one second horizontal groove, institute State dip mold to be placed in the second horizontal groove, and be connected by the realization of two tightening piece with the second horizontal groove fastening.

Preferably, the guide pillar includes path section, big footpath section and conical section, the head end of the path section successively from top to bottom Provided with thread, the path section is arranged on installing plate, and is paid by a nut lock in installing plate；The big footpath section and conical section it Between be additionally provided with an annular groove.

The utility model has the advantage of：It is easy to operate, can be achieved to flat copper (or aluminium) line of different size and terminal it Between crimping, and two kinds of different directions crimp mode between terminal and flat copper (or aluminium) line；Size is accurately unified, crimps jail Gu reliable, operating efficiency is high.

Brief description of the drawings

The utility model is further described in conjunction with the embodiments with reference to the accompanying drawings.

Fig. 1 a are one of structural representations of prior art reactor winding.

Fig. 1 b are the two of the structural representation of prior art reactor winding.

Fig. 1 c are the three of the structural representation of prior art reactor winding.

Fig. 1 d are the four of the structural representation of prior art reactor winding.

Fig. 2 is the structural representation of prior art terminal.

Fig. 3 is the overall diagram of the utility model reactor winding terminal compression joint tool structure.

Fig. 4 is the structural representation of lower tool assembly in the utility model.

Fig. 5 is the structural representation of the utility model medium-height trestle.

Fig. 6 is the structural representation of positioning unit in the utility model.

Fig. 7 is the structural representation of align member in the utility model.

Fig. 8 is the structural representation of latch in the utility model.

Embodiment

Refer to shown in Fig. 1 b and Fig. 2, the reactor winding includes skeleton 1, coil 2 and terminal 3, the terminal 3 is wrapped A pressure connection terminal 31 and a connection end 32 are included, the pressure connection terminal 31, which has, has a bolt hole 321 on an endoporus D, the connection end 32；

Referring again to Fig. 2-3 and Fig. 4, a kind of reactor winding terminal compression joint tool structure, including air press (are not schemed Show), a skeleton 1, coil 2, on terminal 3, one tool assembly 4, tool assembly 5, a top die 6, a dip mold 7, one positioning once it is single Member 8；The air press has a piston rod 12；The upper tool assembly 4 includes a cylinder 41 and guide pillar 42, the cylinder 41 Upper end is recessed into a counterbore 411 matched with the piston rod 12 downwards, and the piston rod 12 is inserted in counterbore 411； The bottom of the cylinder 41, which vertically extends back, an installing plate 43, and the plan vertical of the guide pillar 42 is fixed on installing plate 43 On；The lower tool assembly 5 includes a bottom plate 51, a column 52 and guide plate 53, and the column 52 is erected on bottom plate 51；It is described Guide plate 53 is integrally linked to the top of column 52, and perpendicular with column 52, and the guide plate 53 is provided with one and the guide pillar 42 positioning holes 531 being engaged, when in running order, the guide pillar 42 is inserted in the positioning hole 531；The top die 6 are fixed on the bottom of cylinder 41, and the bottom of the top die 6 caves inward, and form one first dovetail groove 61；The dip mold 7 The top of column 52 is fixed on, the top of the dip mold 7 is provided with second dovetail groove matched with first dovetail groove 61 71, and first dovetail groove 61 and the corresponding setting of the second dovetail groove 71.The bottom of the cylinder 41 is horizontal provided with one first Groove 412, the top die 6 is placed in the first horizontal groove 412, and is realized and the first horizontal groove 412 by two tightening piece 9 Fasten connection；The top of the column 52 is provided with one second horizontal groove 521, and the dip mold 7 is placed in the second horizontal groove 521 It is interior, and be connected by the realization of two tightening piece 9 with the second horizontal fastening of groove 521.

Referring again to Fig. 3, the guide pillar 42 includes path section 421, big footpath section 422 and conical section 423 successively from top to bottom, The head end of the path section 421 is provided with thread b, and the path section 421 is arranged on installing plate 43, and is paid by a nut lock in peace Fill plate 43；An annular groove 424 is additionally provided between the big footpath section 422 and conical section 423.The effect of guide pillar 42 is：Prevent work In upper tool assembly 4 rotated with piston rod 12, cause mutual alignment misalignment between top die 6, dip mold 7, influence press-fits quality； The lower end of guide pillar 42 use conical section 423, make top die 6 with piston rod 12 declines when, guide pillar 42 be easier insertion guide plate 53 Positioning hole 531 in, the annular groove 424 be used for charge of oil fat, lubrication has been moved up and down in the positioning hole 531 to guide pillar 42 Effect.

Referring again to Fig. 3-4, the positioning unit 8 includes a location-plate 81, a support 82, an align member 83 and one and inserted Pin 84, the middle part of the location-plate 81 is provided with one first opening portion 811；The top of the column 52 is provided with one second opening portion 522, the underface that second opening portion 522 corresponds to second dovetail groove 71 is set, and the relative both sides of the column 52 Towards sunken inside into two slots 523, two slot 523 is located at the top of guide plate 53 and is disposed proximate to guide plate 53；Institute Coil 2 (see Fig. 1 b) is stated with a terminal 21 (see Fig. 1 b)；The right part of the location-plate 81 is additionally provided with one the 4th opening portion 812, the terminal 21 (see Fig. 1 b) passes the 4th opening portion 812, and the effect of the 4th opening portion 812 is to carry out During terminal 3 (see a Fig. 1 b) crimping of odd number layer line circle 2 (see Fig. 1 b), for waiting the other end for crimping or having crimped to pass through.

Referring again to Fig. 3 and Fig. 5-6, the support 82 includes left wall 821, rear wall 822 and the right wall 823 that one links, The left wall 821 and right wall 823 are inserted in two slot 523 respectively, and the location-plate 81 is paid by two keepers 10 lock In left wall 821 and the front end face of right wall 823；The middle part of the rear wall 822 is provided with one the 3rd opening portion 8221, and described first opens Oral area 811, the second opening portion 522, the 3rd opening portion 8221 are arranged in " one " word, are carrying out a terminal 3 of even numbers layer line circle 2 During crimping, crimping or the other end crimped is waited to pass through first opening portion 811, the second opening portion 522, the 3rd opening portion 8221.The bottom of the rear wall 822 extends back, and forms a flat board 824, and the rear end of the flat board 824 is provided with a rectangular opening 825； The guide plate 53 is provided with a square hole 532.

Referring again to Fig. 5, Fig. 6 and Fig. 7, the align member 83 includes corner member 831, two square-foots 832 and one always Cylinder 833, two square-foot 832 is respectively perpendicular to spread out and is connected on the outside of two length of sides of right angle component 831, and the cylinder 833 is vertical On the inside of the length of side for being connected to right angle component 831；What the top of the rear wall 822 was engaged provided with one with the square-foot 832 Square hole 8222；When in running order, a spring 11 is sheathed on described in one on square-foot 832, and the square-foot 832 is inserted in In the square hole 8222, the cylinder 833 passes through the bolt hole 321 of the connection end 32, and the pressure connection terminal 31 is placed in described the In two dovetail grooves 71.Align member 83 can be limited and can only move up and down by being engaged using square-foot 832 with square hole 8222.

Referring again to Fig. 1 b, Fig. 6, Fig. 8, the one end of the skeleton 1 has one side A, the side A and the connection The distance between the bolt hole 321 at end 32 is S；The latch 84 is a rectangle structure matched with the rectangular opening 825 841, the rectangle structure 841 corresponds to the inward-facing contraction in one end of short side, forms one and matches with the square hole 532 Square section 842, i.e. the stepped structure of latch 84；When in running order, the rectangle structure 841 wears described Rectangular opening 825, the square section 842 is arranged in the square hole 532 (see Fig. 4), and the front end of the location-plate 81 The distance between face 813 and the cylinder 833 are equal to the S.Support 82 is adjusted by latch 84 the two of the column 52 Insertion position in slot 523, so as to adjust the cylinder 833 of align member 83 the distance between to dip mold 7 (see Fig. 3), is adjusted Adjust bit location 8 (see Fig. 3) front and back position, make two kinds of different size terminals 3 crimping when, its pressure connection terminal 31 can with it is described Second dovetail groove 71 of dip mold 7 aligns.When requiring that thick line is crimped with the matching of large terminal 3 (as shown in Fig. 1 a, Fig. 1 c), Ying Xuan The convex side 843 in the top of latch 84 is selected to insert backwards in the rectangular opening 825；When requiring that fine rule is crimped with the matching of small terminal 3 (such as Shown in Fig. 1 b, Fig. 1 d), the convex side 843 in the top of latch 84 should be selected to insert forward in the rectangular opening 825.

Fig. 1 a, Fig. 1 b, Fig. 1 c, Fig. 1 d, Fig. 2-3 and Fig. 5-6 are referred to, when application utility model works, it is operated Step is as follows：

(1) bottom plate 51 of the lower tool assembly 5 is locked and paid on air press workbench, the He of left wall 821 of support 82 Right wall 823 is inserted in two slots 523 of column 52 respectively, and location-plate 81 is connected into left wall 821 and right wall 823 by screw 10 On；The second dovetail groove 71 of the dip mold 7 is fitted into the second horizontal groove 521 at the top of column 52 upward again, and Lock two tightening piece 9.

(2) counterbore 411 of the cylinder 41 is inserted in air press piston rod 12, and locked by a screw 13；Institute The first dovetail groove 61 for stating top die 6 is fitted into the first horizontal groove 412 of the cylinder 41 down, and locks tightening piece 9 i.e. Screw；The guide pillar 42 is fixed on the installing plate 43 by nut again.

(3) when requiring parallel with flat copper (or aluminium) line crimping mode in the connection end 32 of terminal 3 (such as Fig. 1 a, Fig. 1 b institute Show), the square-foot 832b of the align member 83 should be selected to be inserted in after the spring 11 and be inserted in the top of square hole 8222, this Shi Suoshu cylinders 833 are in plumbness (not shown)；Pressed when requiring that the connection end 32 of terminal 3 is vertical with flat copper (or aluminium) line When connecing mode (as shown in Fig. 1 c, Fig. 1 d), the square-foot 832a of the align member 83 should be selected to be inserted in after the spring 11 and inserted Located at the top of square hole 8222, now the cylinder 833 is in horizontality.

(4) requirement, selection latch 84 top are crimped according to two kinds of different size matchings between terminal and flat copper (or aluminium) line The rectangular opening 825 of the flat board 824 is inserted in convex side 843 backwards or forward, is arrived the cylinder 833 that adjusts the align member 83 The distance between dip mold 7.When requiring that thick line is crimped with the matching of large terminal 3 (as shown in Fig. 1 a, Fig. 1 c), latch 84 should be selected The convex side 843 in top is inserted in the rectangular opening 825 backwards；(such as Fig. 1 b, figure when requiring that fine rule is crimped with the matching of small terminal 3 Shown in 1d), the convex side 843 in the top of latch 84 should be selected to insert forward in the rectangular opening 825.

(5) bolt hole 321 of the terminal 3 is enclosed on the cylinder 833 of the align member 83, and terminal 3 is crimped End 31 is placed in the second dovetail groove 71 of the dip mold 7, and the terminal 3 is horizontal under the effect of spring 11, then will One end terminal 21 of coil 2 is horizontally inserted in the endoporus D of the pressure connection terminal 31 of terminal 3, while according to odd number layer, even numbers layer The position of 2 other end terminal of coil 21 is different, and even numbers layer line circle 2 (as shown in Fig. 1 b, Fig. 1 d), other end terminal 21 is successively Through the first opening portion 811 of location-plate 81, the second opening portion 522 and the 3rd opening portion 8221 of support 82 of column 52, Odd number layer line circle 2 (such as Fig. 1 a, Fig. 1 c) other end terminal 21 passes through the 4th opening portion 812 of the location-plate 81, and makes bone The side A of frame 1 is close on the front end face 813 of location-plate 81, starts air press, upper tool assembly 4 and top die 6 are with pneumatic Press piston rod 12 declines to be crimped to terminal 3, during piston rod 12 is descending, and the guide pillar 42 will be led described in first insertion Into the positioning hole 531 of plate 53, play dip mold 7 and be mutually aligned effect.

(6) closing air press, the upper tool assembly 4 and top die 6 rise with air press piston rod 12, Ran Houchong Multiple above-mentioned (5) operating procedure, joint terminal 3 another to coil 2 is crimped.

The utility model is easy and safe to operate, can be achieved to being crimped between different size flat copper (or aluminium) line and terminal 3, with And two kinds of different directions crimp mode between terminal 3 and flat copper (or aluminium) line, size is accurately unified, crimp solid and reliable, work Make efficiency high.

Claims (7)

1. a kind of reactor winding terminal compression joint tool structure, including air press, the air press have a piston rod；Its It is characterised by：Also include tool assembly, once tool assembly, a top die and a dip mold on one；The upper tool assembly includes a post Body and guide pillar, the upper end of the cylinder are recessed into a counterbore matched with the piston rod downwards, and the piston rod is plugged In in counterbore；The bottom of the cylinder, which vertically extends back, an installing plate, and the plan vertical of the guide pillar is fixed on installing plate On；The lower tool assembly includes a bottom plate, a column and guide plate, and the column is erected on bottom plate；The guide plate one The top of column is linked to, and it is perpendicular with column, and the guide plate is provided with a positioning hole being engaged with the guide pillar, works as place When working condition, the guide pillar is inserted in the positioning hole；The top die is fixed on the bottom of cylinder, and the top die Bottom caves inward, and forms one first dovetail groove；The dip mold is fixed on the top of column, and the top of the dip mold is provided with one The second dovetail groove matched with first dovetail groove, and first dovetail groove setting corresponding with the second dovetail groove.

2. reactor winding terminal compression joint tool structure as claimed in claim 1, it is characterised in that：Also include a positioning single Member, the positioning unit includes a location-plate and a support, and the middle part of the location-plate is provided with one first opening portion；The column Top be provided with one second opening portion, the underface that second opening portion corresponds to second dovetail groove is set, and described vertical Post relative to two sides cave inward into two slots, two slot is located at the top of guide plate and is disposed proximate to guide plate；

The support includes Zuo Qiang, Hou Qiang and You Qiang that one links, and the Zuo Qiang and right wall are inserted in two slot respectively In, the location-plate locks the front end face for paying Yu Zuoqiang and right wall by two keepers；Opened provided with one the 3rd at the middle part of the rear wall Oral area, and first opening portion, the second opening portion, the 3rd opening portion are in the arrangement of " one " word.

3. reactor winding terminal compression joint tool structure as claimed in claim 2, it is characterised in that：Also include a terminal, institute Terminal is stated including there is a bolt hole on a pressure connection terminal and a connection end, and the connection end；

The positioning unit also includes an align member, and the align member includes corner member, two square-foots and a cylinder always, Two square-foot is respectively perpendicular to spread out and is connected on the outside of two length of sides of right angle component, and the cylinder is vertically connected at the one of right angle component On the inside of the length of side；The rear coping is provided with a square hole being engaged with the square-foot；When in running order, a spring It is sheathed on described in one on square-foot, and the square-foot is inserted in the square hole, the cylinder passes through the bolt of the connection end Hole, the pressure connection terminal is placed in second dovetail groove.

4. reactor winding terminal compression joint tool structure as claimed in claim 3, it is characterised in that：Also include a skeleton, should The one end of skeleton has an one side, and the distance between the side and bolt hole of the connection end are S；

The bottom of the rear wall extends back, and forms a flat board, and the rear end of the flat board is provided with a rectangular opening；Set on the guide plate There is a square hole；

The positioning unit also includes a latch, and the latch is a rectangle structure matched with the rectangular opening, described Rectangle structure corresponds to the inward-facing contraction in one end of short side, forms a square section matched with the square hole；When When in running order, the rectangle structure wears the rectangular opening, and the square section is arranged in the square hole, And the distance between the front end face of the location-plate and the cylinder are equal to the S.

5. reactor winding terminal compression joint tool structure as claimed in claim 2, it is characterised in that：Also include a coil, institute Coil is stated with a terminal；The right part of the location-plate is additionally provided with one the 4th opening portion, and the terminal passes the described 4th Opening portion.

6. reactor winding terminal compression joint tool structure as claimed in claim 1, it is characterised in that：The bottom of the cylinder is set There is one first horizontal groove, the top die is placed in the first horizontal groove, and laterally logical with first by the realization of two tightening piece Groove fastens connection；The top of the column is provided with one second horizontal groove, and the dip mold is placed in the second horizontal groove, and is led to The realization of two tightening piece is crossed to be connected with the second horizontal groove fastening.

7. reactor winding terminal compression joint tool structure as claimed in claim 1, it is characterised in that：The guide pillar is from top to bottom Include path section, big footpath section and conical section successively, the head end of the path section is provided with thread, and the path section is arranged in installing plate On, and paid by a nut lock in installing plate；An annular groove is additionally provided between the big footpath section and conical section.