JP2007198221A - Compressor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To minimize the generation of earthing in a compressor. <P>SOLUTION: This compressor 1, 101 comprises a casing 10, a terminal 20, a motor 50, a lead 54, connector clips 80, 180, and cluster bodies 60, 160. The casing comprises a cylindrical body 12. The terminal comprises a terminal pin 21, and is fixed to the casing. The connector clips comprise pin connection parts 81, 181 and lead connection parts 84, 184. The lead connection parts connect the lead so that at least the lead connection side end of the lead extends from a non-terminal arrangement side to a terminal arrangement side along the direction crossing the direction perpendicular to the longitudinal direction of the terminal pin when viewed along the axis L of the body part when the connector clips stored in a cluster body is connected to the terminal pin. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a compressor, and more particularly to a compressor capable of suppressing the occurrence of a ground fault.

Conventionally, in a compressor, when a short circuit or a ground fault occurs, a conductive material adheres to the terminal, and the terminal is damaged due to the occurrence of a tracking phenomenon. However, in recent years, an electric motor and a terminal are connected via a cluster block, and this problem is being solved (for example, refer to Patent Document 1).
JP 2005-163575 A

  However, in the compressor, when the electric motor and the lead wire are fused due to burning of the electric motor or the like, the lead wire may contact the casing of the compressor and a ground fault may occur. When a ground fault occurs in this way, a large current flows through the lead wire and the lead wire itself generates heat. When the lead wires in such a state contact the resin-made cluster body, the cluster body may be deformed, melted, or burned out by the heat. When the cluster body is damaged in this manner, the conductive material is allowed to adhere to the terminal, which leads to damage to the terminal.

  The subject of this invention is suppressing generation | occurrence | production of a ground fault in a compressor as much as possible.

  A compressor according to a first invention includes a casing, a terminal, an electric motor, a lead wire, a connector clip, and a cluster body. The casing has a cylindrical body part. The terminal has terminal pins and is secured to the casing. The lead wire extends from the electric motor. The connector clip has a pin connection portion and a lead wire connection portion. A terminal pin is connected to the pin connection portion. A lead wire is connected to the lead wire connecting portion. The cluster body accommodates at least the pin connection portion of the connector clip. The lead wire connecting portion is at least a tip of the lead wire on the lead wire connecting portion side when viewed along the axis of the body portion with the connector clip accommodated in the cluster body connected to the terminal pin. The lead wire is connected so as to extend from the non-arrangement side of the terminal toward the arrangement side of the terminal along the direction intersecting the direction orthogonal to the longitudinal direction of the terminal pin.

  In this compressor, when the connector clip accommodated in the cluster body is connected to the terminal pin and viewed along the axis of the fuselage, at least the tip of the lead wire connecting portion side of the lead wire is the terminal pin. The lead wire connecting portion connects the lead wires so as to extend from the non-arrangement side of the terminal toward the arrangement side of the terminal along a direction intersecting the direction orthogonal to the longitudinal direction of the terminal. For this reason, in this compressor, a lead wire can be kept away from a casing. Therefore, in this compressor, the occurrence of a ground fault can be suppressed as much as possible.

  A compressor according to a second aspect of the present invention is the compressor according to the first aspect of the present invention, wherein the lead wire connecting portion is along the axis of the body portion with the connector clip accommodated in the cluster body being connected to the terminal pin. In this case, the lead wire is connected so that at least the tip of the lead wire on the lead wire connecting portion side extends from the terminal non-arrangement side toward the terminal arrangement side along the longitudinal direction of the terminal pin.

  In this compressor, when the connector clip accommodated in the cluster body is connected to the terminal pin and viewed along the axis of the fuselage, at least the tip of the lead wire connecting portion side of the lead wire is the terminal pin. The lead wire connecting portion connects the lead wires so as to extend from the non-arrangement side of the terminal toward the arrangement side of the terminal along the longitudinal direction. For this reason, in this compressor, a lead wire can be kept away from a casing. Therefore, in this compressor, the occurrence of a ground fault can be suppressed as much as possible.

  The compressor which concerns on 3rd invention is a compressor which concerns on 1st invention, Comprising: A cluster body accommodates only a pin connection part among connector clips. The lead wire connecting portion is in a direction intersecting with the direction perpendicular to the longitudinal direction of the terminal pin when viewed along the axis of the body portion with the connector clip housed in the cluster body connected to the terminal pin. Along the non-arranged side of the terminal.

  In this compressor, the cluster body accommodates only the pin connection portion of the connector clip. Further, in this compressor, when the connector clip housed in the cluster body is connected to the terminal pin, the lead wire connecting portion is orthogonal to the longitudinal direction of the terminal pin when viewed along the axis of the body portion. It extends toward the non-arrangement side of the terminal along the direction intersecting the direction in which the terminal is located. For this reason, in this compressor, a lead wire can be kept away from a casing. Therefore, in this compressor, the occurrence of a ground fault can be suppressed as much as possible.

  In the compressor which concerns on 1st invention, a lead wire can be kept away from a casing. Therefore, in this compressor, the occurrence of a ground fault can be suppressed as much as possible.

  In the compressor which concerns on 2nd invention, a lead wire can be kept away from a casing. Therefore, in this compressor, the occurrence of a ground fault can be suppressed as much as possible.

  In the compressor which concerns on 3rd invention, a lead wire can be kept away from a casing. Therefore, in this compressor, the occurrence of a ground fault can be suppressed as much as possible.

<First Embodiment>
Here, the compressor 1 which concerns on 1st Embodiment of this invention is demonstrated using FIGS.

[Compressor structure]
As shown in FIGS. 1 and 2, the compressor 1 according to the first embodiment of the present invention is mainly fixed to the main casing 10 with the main casing 10 partially protruding outside the main casing 10. Terminal 20, compression pump unit 40 accommodated in main body casing 10, and electric motor 50 accommodated in main body casing 10 and connected to terminal 20.

  Hereinafter, the main body casing 10, the terminal 20, the compression pump unit 40, and the electric motor 50 will be described in detail.

(1) Main Body Casing As shown in FIG. 1, the main body casing 10 mainly includes a substantially cylindrical body casing part 12, an upper lid part 11 covering the upper part of the body casing part 12, and a lower part of the body casing part 12. It is comprised from the bottom cover part 13 to cover. Here, the upper cover part 11, the body casing part 12, and the bottom cover part 13 are welded and integrated in order.

  As shown in FIGS. 2 to 4, a planar portion 14 for fixing the terminal 20 is formed in the body casing portion 12. The flat portion 14 is obtained by pressing a cylindrical steel plate material. That is, as a result, the body casing portion 12 has a deformed portion including a flat portion 14, a partial cylindrical portion 15, and a connecting portion 16 that connects the flat portion 14 and the partial cylindrical portion 15 in a part of the longitudinal direction Dl. 17 will be formed (see FIGS. 2 to 4).

(2) Compression Pump Unit The compression pump unit 40 is a scroll type compression pump unit mainly composed of components such as a fixed scroll 41, a movable scroll 42, a housing 43, an Oldham ring 44, and a crankshaft 45. .

(3) Electric motor As shown in FIG. 1, the electric motor mainly includes a ring-shaped stator 51 that is fixed to the cylindrical portion of the body casing portion 12, and a substantially cylindrical shape that is accommodated in the center of the stator 51. And a rotor 55.

  The stator 51 mainly includes a stator core 52 and a coil 53 wound around a plurality of teeth of the stator core 52. And the coil end 53a is formed in the compression pump unit 40 side of the stator core 52, and the other side. Then, as shown in FIG. 4, three lead wires 54 extend from a specific position (hereinafter referred to as a lead wire drawing position) Pd of the coil end 53a on the compression pump unit 40 side. (For convenience of explanation, only one is shown in FIG. 4). Each of the lead wires 54 is covered with an insulating resin coating layer. Each of the lead wires 54 is connected to a phosphor bronze connector clip 80 (see FIG. 5) inserted into the cluster body 60 as shown in FIGS. In the present embodiment, the one in which the connector clip 80 is inserted into the cluster body 60 is referred to as a cluster block 70.

As shown in FIG. 5, the connector clip 80 mainly includes a lead wire connecting portion 84, a fusing portion 82, a terminal pin insertion portion 81, and a locking claw 85. It has the shape of As shown in FIG. 5, the lead wire connecting portion 84 has a first crimping portion 84a and a second crimping portion 84b, and connects the lead wires 54 at two points. Here, the first crimping portion 84a crimps the metal wire exposed at the tip of the lead wire 54, and the second crimping portion 84b leads the lead wire from above the insulating coating layer covering the metal wire of the lead wire 54. 54 is crimped. The terminal pin insertion portion 81 has a hole into which the terminal pin 21 is inserted (hereinafter referred to as a terminal pin insertion hole), and is provided on the opposite side of the lead wire connection portion 84. When the terminal pin 21 is inserted into the terminal pin insertion portion 81 and electricity is supplied from an external power source existing outside the main body casing 10, the coil 53 is connected to the coil 53 through the terminal pin 21, the connector clip 80, and the lead wire 54. Electricity is supplied. The fusing part 82 is formed between the lead wire connecting part 84 and the terminal pin insertion part 81, and its fusing speed is determined by the degree of opening of the opening 83. In the present embodiment, the size of the opening 83 is determined so that the fusing part 82 has a cross-sectional area of 0.4 to 2.0 mm ² . The locking claw 85 is a claw fitted in locking holes 65 a and 65 b (described later) provided in the cluster body 60, and plays a role of fixing the connector clip 80 to the cluster body 60. In the present embodiment, connector clip 80 is inserted into cluster body 60 such that lead wire connecting portion 84 is separated from body casing portion 12. In other words, when the cluster block 70 is connected to the terminal pin 21, when viewed along the axis L of the body casing portion 12, the lead wire connecting portion 84 intersects in a direction orthogonal to the longitudinal direction of the terminal pin 21. It extends from the arrangement side of the terminal 20 toward the non-arrangement side of the terminal 20 along the direction (see FIG. 4). At this time, the fusing part 82 is separated from the insulating seal part 23 by 3 mm or more.

  The cluster body 60 is a resin-integrated molded product. As shown in FIGS. 6 to 10, the cluster body 60 mainly includes one first square tube portion 61 a, two second square tube portions 61 b, three lid portions 61 c, And it can be said that it is formed from two right triangular plate portions 61d. Here, of the four plate portions forming the first square tube portion 61a, one plate portion 63a has a circular terminal pin insertion port 64a and a rectangular locking hole 65a aligned along the longitudinal direction Dlc. Is formed. The second square tube portion 61b has a cross section substantially the same as the cross section when the first square tube portion 61a is cut by a plane orthogonal to the longitudinal direction Dlc of the first square tube portion 61a. The length is equal to the length in the longitudinal direction Dlc of the first square tube portion 61a. The second square tube portion 61b is also formed with a similar terminal pin insertion port 64b and a locking hole 65b at the same position as the first square tube portion 61a. The second square tube portion 61b has a longitudinal direction Dlc parallel to the longitudinal direction Dlc of the first square tube portion 61a, and a plate portion 63b having a terminal pin insertion port 64b is a terminal of the first square tube portion 61a. When viewed along the plate thickness direction Dt of the plate portions 63a, 63b adjacent to the plate portion 63a having the pin insertion port 64a and where the terminal pin insertion ports 64a, 64b are formed, the three terminal pin insertion ports 64a, When connecting the centers of 64b, an equilateral triangle is formed, and the end surface of the first square tube portion 61a on the terminal pin insertion port 64a side protrudes beyond the end surface of the second square tube portion 61b on the terminal pin insertion port 64b side. Are arranged on both sides of the first rectangular tube portion 61a. The lid portion 61c closes the openings on the terminal pin insertion ports 64a and 64b side of the first square tube portion 61a and the second square tube portion 61b. The right triangular plate portion 61d has a base having the same length as the width of the second rectangular tube portion 61b and a terminal pin insertion port 64b of the second square tube portion 61b from the end surface of the first square tube portion 61a on the terminal pin insertion port 64a side. A right triangular plate having a height equal to the distance to the end surface on the side, and the end surface including the bottom of the right triangular triangle on the front and back faces the lid portion 61c of the second rectangular cylinder 61b, and the front and back The end surface including the vertical side of the right triangle is in contact with the first rectangular tube portion 61a, and the plate surface is aligned with the plate surfaces of the plate portions 63a and 63b in which the terminal pin insertion ports 64a and 64b are formed. Is done. And the terminal pin insertion part 81 is inserted in the 1st square cylinder part 61a and the 2nd square cylinder part 61b so that a terminal pin insertion hole may correspond to the terminal pin insertion ports 64a and 64b, and may form a continuous hole. It is. In addition, the length of the longitudinal direction Dlc of the 1st square cylinder part 61a and the 2nd square cylinder part 61b is a length in which only the terminal pin insertion part 81 among the connector clips 80 is accommodated. That is, the fusing part 82 and the lead wire connecting part 84 of the connector clip 80 are arranged outside the cluster body 60.

(4) Terminal As shown in FIG. 11, the terminal 20 mainly includes a terminal pin 21, a terminal body 22, and an insulating seal portion 23. The terminal body 22 is mainly composed of a cylindrical portion 22a and a circular lid portion 22b that closes an opening on one side of the cylindrical portion 22a. The circular lid portion 22b is provided with three terminal pin insertion holes. In addition, this terminal pin insertion hole is distribute | arranged so that it may become a regular triangle when those centers are connected in front view. The terminal pin 21 is inserted into the terminal pin insertion hole, and is fixed to the terminal body 22 by the insulating seal portion 23. By adopting such a structure, the three terminal pins 21 are insulated from each other.

[Characteristics of compressor]
In the compressor 1 according to the first embodiment of the present invention, the connector clip 80 is inserted into the cluster body 60 so that the lead wire connecting portion 84 is separated from the body casing portion 12. In other words, when the cluster block 70 is connected to the terminal pin 21, when viewed along the axis L of the body casing portion 12, the lead wire connecting portion 84 intersects in a direction orthogonal to the longitudinal direction of the terminal pin 21. It extends from the arrangement side of the terminal 20 toward the non-arrangement side of the terminal 20 along the direction. For this reason, in this compressor 1, the lead wire 54 can be moved away from the body casing portion 12. Therefore, in this compressor 1, generation | occurrence | production of a ground fault can be suppressed as much as possible.

[Modification]
(A)
In the compressor 1 according to the previous embodiment, the scroll-type compression pump unit 40 is employed. However, instead of this, other types of compression pump units such as a rotary type and a swing type may be employed. Absent.

(B)
In the compressor 1 according to the previous embodiment, the fusing speed of the fusing part 82 is determined by the degree of opening of the opening 83. Instead, the fusing part has a constricted shape, and the fusing part has a constricted shape. The fusing rate may be determined.

(C)
In the compressor 1 according to the previous embodiment, the connector clip 80 is manufactured from phosphor bronze, but the connector clip 80 may be manufactured from brass. In this way, the fusing speed of the fusing part 82 can be increased.

(D)
In the compressor 1 according to the previous embodiment, the stator 51 is fixed to the cylindrical portion of the body casing portion 12, but the stator 51 is fixed to a lower housing (not shown) provided separately in the lower part. It may be.

(E)
In the compressor 1 according to the previous embodiment, the connector clip 80 is formed such that the fusing part 82 is separated from the insulating seal part 23 by 3 mm or more in a state where the connector clip 80 is completely fitted into the terminal pin 21. . However, the connector clip 80 may be formed so that the fusing part 82 is separated from the insulating seal part 23 (described later) by 5 mm or more in a state where the connector clip 80 is completely fitted into the terminal pin 21, or separated by 6 mm or more. It may be formed as follows.

(F)
In the compressor 1 according to the previous embodiment, the terminal 20 having three terminal pins 21 is employed, but the number of terminal pins 21 is not particularly limited, and there are terminals having four or more terminal pins 21. It may be adopted.

(G)
In the compressor 1 according to the previous embodiment, the plane portion 14 is formed in the body casing portion 12 and the terminal 20 is fixed thereto, but the plane portion is formed in the upper lid portion 11 and the terminal 20 is provided there. It does not matter if it is fixed.

Second Embodiment
Here, the compressor 101 which concerns on 2nd Embodiment of this invention is demonstrated using FIGS. 12-16. Since the compressor 101 is the same as the compressor 1 according to the first embodiment except for the cluster block, the description other than the cluster block is denoted by the same reference numeral and omitted here.

  In the present embodiment, the cluster block 170 is mainly composed of a cluster body 160 and a connector clip 180, as shown in FIG. Hereinafter, the cluster body 160 and the connector clip 180 will be described in detail.

As shown in FIG. 12, the connector clip 180 mainly includes a lead wire connecting portion 184, a fusing portion 182, a terminal pin insertion portion 181, and a locking claw 185. As shown in FIG. 12, the lead wire connecting portion 184 has a first crimping portion 184a and a second crimping portion 184b, and connects the lead wires 54 at two points. Here, the first crimping portion 184a crimps the metal wire exposed at the tip of the lead wire 54, and the second crimping portion 184b leads the lead wire from above the insulating coating layer covering the metal wire of the lead wire 54. 54 is crimped. Here, the lead wire connecting portion 184 is a lead wire so that the tip end portion of the lead wire 54 extends from the lead wire drawing position Pd side toward the terminal 20 side along the direction parallel to the longitudinal direction of the terminal pin 21. 54 is connected. In other words, when the cluster block 170 is connected to the terminal pin 21, when viewed along the axis L of the body casing portion 12, the lead wire connecting portion 184 has the tip on the lead wire connecting portion side of the terminal pin 21. The lead wire 54 is connected so as to extend from the non-arrangement side of the terminal 20 toward the arrangement side of the terminal 20 along the longitudinal direction (see FIG. 4). The terminal pin insertion part 181 has a hole (hereinafter referred to as a terminal pin insertion hole) into which the terminal pin 21 is inserted, and is provided on the opposite side of the lead wire connection part 184. When the terminal pin 21 is inserted into the terminal pin insertion portion 181 and electricity is supplied from an external power source existing outside the main body casing 10, the terminal 53 is connected to the coil 53 through the terminal pin 21, the connector clip 180, and the lead wire 54. Electricity is supplied. The fusing part 182 is formed between the lead wire connecting part 184 and the terminal pin insertion part 181, and the fusing speed is determined by the degree of opening of the opening 183. In the present embodiment, the size of the opening 183 is determined so that the fusing part 182 has a cross-sectional area of 0.4 to 2.0 mm ² . The locking claw 185 is a claw that is fitted into a locking hole 164 (described later) provided in the cluster body 160 and plays a role of fixing the connector clip 180 to the cluster body 160. In the present embodiment, the fusing part 182 is separated from the insulating seal part 23 by 3 mm or more.

  The cluster body 160 is a resin-integrated molded product. As shown in FIGS. 13 to 16, the cluster body 160 mainly includes a single board 161 having a substantially equilateral triangle and three connector clips erected on the board 161. It can be said that it is formed from the accommodating portion 162. A connector clip housing space 165 is formed in the connector clip housing portion 162 (see FIGS. 15 and 16). Further, the connector clip accommodating portion 162 is arranged point-symmetrically with the center of gravity G of the substrate 161 as the center. In addition, a circular terminal pin insertion port 163 and a rectangular locking hole 164 penetrating in the plate thickness direction Dt2 are provided at the position where the connector clip housing portion 162 is erected on the board 161. It is formed so that it may line up along a direction. And the terminal pin insertion part 181 is inserted in the connector clip accommodating part 162 so that a terminal pin insertion hole may correspond with the terminal pin insertion port 163, and may form a continuous hole. The length in the longitudinal direction of the connector clip accommodating portion 162 is such that only a part of the terminal pin insertion portion 181 and the fusing portion 182 of the connector clip 180 is accommodated. That is, a part of the fusing part 182 and the lead wire connecting part 184 of the connector clip 180 are arranged outside the connector clip housing part 162, that is, outside the cluster body 160.

[Characteristics of compressor]
In the compressor 101 according to the second embodiment of the present invention, the lead wire connecting portion 184 is connected to the terminal 20 from the lead wire drawing position Pd side along the direction in which the distal end portion of the lead wire 54 is parallel to the longitudinal direction of the terminal pin 21. The lead wire 54 is connected so as to extend toward the side. In other words, when the cluster block 170 is connected to the terminal pin 21, when viewed along the axis L of the body casing portion 12, the lead wire connecting portion 184 has the tip on the lead wire connecting portion side of the terminal pin 21. The lead wire 54 is connected so as to extend from the non-arrangement side of the terminal 20 toward the arrangement side of the terminal 20 along the longitudinal direction. For this reason, in the compressor 101, the lead wire 54 can be moved away from the body casing portion 12. Therefore, in this compressor 101, generation | occurrence | production of a ground fault can be suppressed as much as possible.

[Modification]
In the compressor 101 according to the second embodiment, the cluster body 160 whose substrate 161 has a substantially equilateral triangle shape is employed, but a cluster body 260 having a disk-shaped substrate 261 as illustrated in FIG. 17 is employed. Also good. In such a case, the connector clip accommodating part 162 is arranged symmetrically with respect to the center O of the substrate 161.

  Moreover, it is also possible to apply the modification of 1st Embodiment about the compressor 101 which concerns on 2nd Embodiment.

  The compressor according to the present invention has a feature that the lead wire can be moved away from the casing, and is effective in preventing a ground fault.

It is a longitudinal section of the compressor concerning a 1st embodiment of the present invention. It is a fragmentary perspective view near the terminal of the compressor concerning a 1st embodiment of the present invention. It is a fragmentary longitudinal cross-sectional view of the terminal vicinity of the compressor which concerns on 1st Embodiment of this invention. It is a fragmentary cross-sectional view of the unusual shape part of the main body casing of the compressor concerning a 1st embodiment of the present invention. It is an enlarged view of the terminal vicinity employ | adopted as the compressor which concerns on 1st Embodiment of this invention. It is an upper perspective view of the cluster body employ | adopted as the compressor which concerns on 1st Embodiment of this invention. It is a downward perspective view of the cluster body employ | adopted as the compressor which concerns on 1st Embodiment of this invention. It is a top perspective view of the cluster body employ | adopted as the compressor which concerns on 1st Embodiment of this invention. It is AA sectional drawing of the cluster body employ | adopted as the compressor which concerns on 1st Embodiment of this invention. It is a rear view of the cluster body employ | adopted as the compressor which concerns on 1st Embodiment of this invention. It is an external appearance perspective view of the terminal employ | adopted as the compressor which concerns on 1st Embodiment of this invention. Here, (a) is a front perspective view, and (b) is a rear perspective view. It is an enlarged view of a terminal vicinity employ | adopted as the compressor which concerns on 2nd Embodiment of this invention. It is an upper surface perspective view of the cluster body employ | adopted as the compressor which concerns on 2nd Embodiment of this invention. It is a bottom view of the cluster body employ | adopted as the compressor which concerns on 2nd Embodiment of this invention. It is BB sectional drawing of the cluster body employ | adopted as the compressor which concerns on 2nd Embodiment of this invention. It is CC sectional drawing of the cluster body employ | adopted as the compressor which concerns on 2nd Embodiment of this invention. It is a top perspective view of the cluster body which concerns on the modification of 2nd Embodiment of this invention.

Explanation of symbols

1,101 Compressor 10 Body casing (casing)
12 Torso casing part (torso part)
20 Terminal 21 Terminal pin 50 Electric motor 54 Lead wire 60, 160 Cluster body 80, 180 Connector clip 81, 181 Pin connection 84, 184 Lead wire connection L Casing shaft

Claims (3)

A casing (10) having a cylindrical body (12);
A terminal (20) having terminal pins (21) and secured to the casing;
An electric motor (50);
A lead wire (54) extending from the motor;
Connector clips (80, 180) having pin connection portions (81, 181) for connecting the terminal pins and lead wire connection portions (84, 184) for connecting the lead wires;
A cluster body (60, 160) for accommodating at least the pin connection portion of the connector clip;
With
The lead wire connecting portion is at least a lead of the lead wire when viewed along the axis (L) of the body portion with the connector clip accommodated in the cluster body connected to the terminal pin. Connecting the lead wire so that the tip of the line connecting portion side extends from the non-arrangement side of the terminal toward the arrangement side of the terminal along a direction intersecting a direction orthogonal to the longitudinal direction of the terminal pin;
Compressor (1, 101). When the lead wire connecting portion (184) is viewed along the axis of the body portion with the connector clip (180) accommodated in the cluster body (160) being connected to the terminal pin, Connecting the lead wire so that at least a tip portion of the lead wire on the lead wire connecting portion side extends from the non-arrangement side of the terminal toward the arrangement side of the terminal along the longitudinal direction of the terminal pin;
The compressor (101) according to claim 1. The cluster body (60) accommodates only the pin connection portion (81) of the connector clip (80),
The lead wire connecting portion (84) is a longitudinal direction of the terminal pin when viewed along the axis of the body portion with the connector clip accommodated in the cluster body connected to the terminal pin. Extending toward the non-arrangement side of the terminal along a direction intersecting a direction orthogonal to the terminal,
The compressor (1) according to claim 1.

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