CN218158043U - TR assembly transverse locking fine adjustment aligning device - Google Patents

Abstract

The utility model discloses a TR component transverse locking fine adjustment aligning device, which comprises a movable plate and an aligning module; the TR component is provided with a signal contact pin, the alignment module is provided with a detection jack, and the signal contact pin and the detection jack are oppositely arranged in parallel under the state that the TR component is arranged on the movable plate; a longitudinal adjusting mechanism for driving the moving plate to move is arranged below the moving plate; the left side and the right side of the moving plate in the advancing direction of the TR component are respectively provided with a fine adjustment component used for pushing the TR component to move in the plane where the bottom surface of the moving plate is located along the direction vertical to the extending direction of the signal contact pin and a locking component which moves along with the TR component and can play a certain locking role on the TR component. The utility model discloses can finely tune and lock the ascending position of left and right sides that the TR subassembly gos forward, be convenient for make and detect contact pin and signal interface and aim at.

Description

TR assembly transverse locking fine adjustment aligning device

Technical Field

The utility model relates to a TR subassembly technical field, concretely relates to transverse locking fine setting aligning device of TR subassembly.

Background

T/R is an abbreviation of Transmitter and Receiver, and the TR component refers to the part between the radio frequency and the antenna in a wireless transceiver system. One end of the T/R component is connected with the antenna, and the other end is connected with the intermediate frequency processing unit to form a wireless transceiving system. The function of the device is to amplify, phase shift and attenuate signals.

Present TR subassembly is when testing, need be connected the signal contact pin on the TR subassembly and the detection jack counterpoint on the detection device, signal contact pin intensive and transverse distribution on the TR subassembly, the in-process that makes the TR subassembly remove towards detecting the socket through traditional aligning device, because the movable plate of installation TR subassembly is not inseparable with being connected between the drive arrangement, or adopt the guide rail to carry out auxiliary drive when, there is the gap between slider on the guide rail and the guide rail, aligning device can drive the TR subassembly and rock about, signal contact pin on the TR subassembly after rocking is on the left right direction with the detection jack skew, it is difficult to make signal contact pin and detection jack align to promote the TR subassembly side with the hand.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a TR subassembly transversely locks fine setting aligning device, it can finely tune and lock the position of TR subassembly on the left and right sides orientation that the TR subassembly gos forward, is convenient for make detection contact pin and signal interface aim at.

In order to solve the technical problem, the utility model discloses a following scheme:

a TR component transverse locking fine adjustment aligning device comprises a moving plate for mounting a TR component and an aligning module corresponding to the TR component placed on the TR component;

the TR component is provided with a signal contact pin, the alignment module is provided with a detection jack matched with the signal contact pin, and the signal contact pin and the detection jack are oppositely arranged in parallel in a state that the TR component is arranged on the movable plate;

a longitudinal adjusting mechanism for driving the moving plate to enable the TR component on the moving plate and the signal contact pin on the TR component to move towards the detection jack along the self extending direction is arranged below the moving plate;

the left side and the right side of the moving plate in the advancing direction of the TR assemblies are respectively provided with a fine adjustment assembly and a locking assembly, the fine adjustment assembly is used for pushing the TR assemblies to move in the plane where the bottom surfaces of the fine adjustment assembly are located and in the direction perpendicular to the extending direction of the signal contact pins, the locking assembly moves along with the TR assemblies, and the locking assembly can play a certain locking role in the TR assemblies. The locking mechanism has the advantages that through the arrangement of the fine adjustment assembly and the locking assembly, the fine adjustment assembly pushes the TR assembly to enable the signal contact pins to coincide with the axes of the detection jacks, the position of the fine-adjusted TR assembly on the moving plate is locked through the locking assembly, and the situation that the signal contact pins and the detection jacks are staggered and cannot be connected due to the fact that the TR assembly shakes on the moving plate after the TR assembly is in the fine adjustment position is avoided.

Furthermore, the fine setting subassembly includes that the lateral wall is equipped with the threaded push rod of screw thread, is equipped with the screw hole that the extending direction corresponds and set up perpendicularly with TR subassembly lateral wall on the movable plate in arbitrary one side in the left and right sides on TR subassembly direction of advance, and threaded push rod passes through threaded connection with the screw hole. The effect of the screw thread push rod is that the screw thread push rod can slowly push the TR component through rotating the screw thread push rod and matching the screw thread push rod with the screw hole, and the effect of finely adjusting the TR component is achieved.

Furthermore, the threaded push rod comprises a positioning glass bead screw and an adjusting hand wheel which can be separated from each other, the outer surface of the positioning glass bead screw is provided with a thread matched with the threaded hole, the adjusting hand wheel is provided with an adjusting rod which is embedded into the positioning glass bead screw along the axis of the positioning glass bead screw, and the adjusting rod is prismatic. The adjusting rod is taken down through the arrangement of the locating glass bead screw and the adjusting hand wheel which can be separated from the locating glass bead screw when a thread push rod is not used, and the surface is prevented from colliding with the adjusting hand wheel to cause the dislocation of the locating glass bead screw and a thread hole and even cause the damage of the locating glass bead screw or the thread on the thread hole.

Furthermore, the contact surface of the positioning glass bead screw and the side wall of the TR component is spherical. The effect is to avoid the surface with edges and corners from contacting the side wall of the TR component to damage the surface of the TR component.

Further, the locking subassembly is located one side relative with the fine setting subassembly on the movable plate, and the locking subassembly includes the regulating block corresponding with the lateral wall of TR subassembly, is equipped with the spout that runs through the regulating block upper and lower surface on the regulating block, and the spout extends along the direction perpendicular with TR subassembly lateral wall, runs through in the spout to be equipped with movable plate threaded connection's locking bolt. The effect of the adjusting block locking mechanism is that through the setting of the adjusting block and the locking bolt, when the fine adjustment assembly pushes the TR assembly to move towards the adjusting block, the TR assembly pushes the adjusting block to move, meanwhile, through the setting of the sliding groove, the locking bolt generates position change relative to the adjusting block in the sliding groove, and due to the fact that the locking bolt is in threaded connection with the moving plate, the locking bolt keeps pressure on the adjusting block in the moving process of the adjusting block, and the adjusting block is locked through the locking effect of the locking bolt on the adjusting block, so that the adjusting block has a locking function on the TR assembly.

Furthermore, the locking bolt is a round-head bolt, and a hexagonal groove is formed in the top of the locking bolt.

Furthermore, the width of the sliding groove is matched with the major diameter of a screw rod of the locking bolt, the sliding groove is provided with a sinking platform matched with the outer diameter of the head of the locking bolt, and the depth of the sinking platform is greater than the height of the head of the locking bolt. The locking bolt is arranged in the sliding groove through the sinking platform, the top end of the locking bolt is located in the sliding groove, the bottom surface of the locking bolt is in contact with the top surface of the sinking platform, the pressure of the locking bolt on the adjusting block is kept, meanwhile, the top end of the locking bolt is prevented from being higher than the top end of the adjusting block, and therefore the locking bolt is prevented from being misplaced due to the fact that the head of the locking bolt is collided, the locking bolt is prevented from being misplaced, and the locking effect of the locking bolt on the adjusting block is prevented from being influenced.

Furthermore, the longitudinal adjusting mechanism comprises a ball screw, a nut base of the ball screw is connected to the bottom surface of the movable plate, guide rails parallel to the extending direction of the screw are arranged on two sides of the screw of the ball screw, and a sliding block connected to the bottom surface of the movable plate is arranged on each guide rail. The extending direction of the screw rod is parallel to the extending direction of the signal contact pin. The nut base moves along the extending direction of the screw rod when the screw rod is operated to rotate around the axis of the screw rod through the arrangement of the ball screw rod, so that the moving plate connected with the nut base moves towards the alignment module, and the signal contact pin can be in butt joint with the detection jack.

Furthermore, the movable plate is provided with a guide positioning pin arranged in parallel with the extending direction of the guide rail, and the alignment module is provided with a positioning groove matched with the guide positioning pin. The effect is that, through the setting of guide locating pin, when the guide locating pin enters into the constant head tank, can avoid the movable plate to rock at the in-process production that advances.

Further, the axis of the fine adjustment assembly is positioned on the same straight line with the normal line of the center of the side wall of the locking assembly. The locking assembly has the effects that the stress positions of the two sides of the locking assembly are corresponding, and the phenomenon that the TR assembly deflects on the moving plate due to the fact that the stress positions are staggered mutually is avoided, so that the signal contact pin and the detection jack are obliquely arranged and cannot be jointed.

The utility model discloses beneficial effect who has:

1. through the arrangement of the fine adjustment assembly and the locking assembly, the fine adjustment assembly pushes the TR assembly to enable the signal contact pin to coincide with the axis of the detection jack, and simultaneously, the position of the finely adjusted TR assembly on the moving plate is locked through the locking assembly, so that the situation that the signal contact pin and the detection jack are staggered and cannot be connected due to the fact that the TR assembly shakes on the moving plate after the TR assembly is in the fine adjustment position is avoided;

2. through the arrangement of the threaded push rod, the threaded push rod is rotated, and the threaded push rod is matched with the threaded hole, so that the threaded push rod can slowly push the TR component, and the effect of finely adjusting the TR component is achieved;

3. through the setting of regulating block and locking bolt, when the fine setting subassembly promoted the TR subassembly and move towards the regulating block, the TR subassembly promoted the regulating block and removed, simultaneously through the setting of spout, locking bolt produced the change of position for the regulating block in the spout, and because locking bolt and movable plate threaded connection, locking bolt keeps the pressure to the regulating block at the in-process that the regulating block removed, through the locking effect of locking bolt to the regulating block, makes the regulating block play the locking function to the TR subassembly.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic top view of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;

FIG. 4 is an enlarged view of the structure at B in FIG. 2;

FIG. 5 is a schematic perspective view of a bead positioning screw;

fig. 6 is a schematic perspective view of an adjusting handwheel.

The reference numerals are illustrated below: 1. a TR component; 2. moving the plate; 3. an alignment module; 4. a signal pin; 5. detecting the jacks; 6. a longitudinal adjustment mechanism; 7. a fine tuning component; 8. a locking assembly; 9. a threaded push rod; 10. a threaded hole; 11. positioning a glass bead screw; 12. adjusting a hand wheel; 13. an adjusting block; 14. a chute; 15. a locking bolt; 16. sinking a platform; 17. a ball screw; 18; a nut base; 19. a screw rod; 20. a guide rail; 21. a slider; 22. a guide positioning pin; 23. and (6) positioning a groove.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the present invention is not limited thereto.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "longitudinal", "lateral", "horizontal", "inner", "outer", "front", "rear", "top", "bottom", etc. are directions or positional relationships based on the directions or positional relationships shown in the drawings, or directions or positional relationships conventionally placed when the products of the present invention are used, and are only for convenience of description of the present invention and simplification of the description, but not for indication or suggestion that the indicated device or element must have a specific direction, be constructed and operated in a specific direction, and therefore should not be construed as limiting the present invention.

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

Example 1

A TR component 1 transverse locking fine adjustment aligning device is shown in figure 1 and comprises a moving plate 2 for mounting the TR component 1 and an aligning module 3 corresponding to the TR component 1 placed on the TR component 1;

a signal pin 4 is arranged on the TR component 1, a detection jack 5 matched with the signal pin 4 is arranged on the alignment module 3, and the signal pin 4 and the detection jack 5 are oppositely arranged in parallel in a state that the TR component 1 is installed on the movable plate 2;

a longitudinal adjusting mechanism 6 for driving the moving plate 2 to enable the TR component 1 on the moving plate 2 and the signal contact pin 4 on the TR component 1 to move towards the detection jack 5 along the self extending direction is arranged below the moving plate 2;

the left side and the right side of the moving plate 2 in the advancing direction of the TR component 1 are respectively provided with a fine adjustment component 7 for pushing the TR component 1 to move in the plane where the bottom surface of the TR component 1 is located along the direction vertical to the extending direction of the signal pin 4 and a locking component 8 which moves along with the TR component 1 and can play a certain locking role for the TR component 1. The effect is that, through the setting of fine setting subassembly 7 and locking Assembly 8, make fine setting subassembly 7 when promoting TR subassembly 1 and make signal contact pin 4 coincide with the axis that detects jack 5 mutually, come to lock the position of TR subassembly 1 on movable plate 2 after the fine setting through locking Assembly 8, avoid TR subassembly 1 to rock on movable plate 2 after the fine setting position TR subassembly 1 and cause signal contact pin 4 and detection jack 5 dislocation and can not connect.

Specifically, as shown in fig. 2, the fine adjustment assembly 7 includes a threaded push rod 9 having threads on an outer side wall thereof, a threaded hole 10 is provided on any one of left and right sides of the moving plate 2 in a forward direction of the TR assembly 1, the threaded push rod 9 and the threaded hole 10 are in threaded connection, and the extending direction of the threaded push rod corresponds to a side wall of the TR assembly 1 and the threaded hole is perpendicular to the side wall of the TR assembly 1. Its effect does, through the setting of screw thread push rod 9, through rotating screw thread push rod 9, through the cooperation of screw thread push rod 9 with screw hole 10, makes screw thread push rod 9 can slowly promote TR subassembly 1, has reached the effect of carrying out the fine setting to TR subassembly 1.

Specifically, as shown in fig. 4, the threaded push rod 9 includes a positioning bead screw 11 and an adjusting hand wheel 12 that can be separated from each other, the outer surface of the positioning bead screw 11 is provided with a thread that is adapted to the threaded hole 10, as shown in fig. 6, the adjusting hand wheel 12 is provided with an adjusting rod that is embedded into the positioning bead screw 11 along the axis of the positioning bead screw 11, the adjusting rod is hexagonal prism-shaped, and the positioning bead screw 11 has a hexagonal prism-shaped strip groove that is matched with the adjusting rod. The adjusting device has the effects that through the arrangement of the positioning glass bead screw 11 and the adjusting hand wheel 12 which can be separated from the positioning glass bead screw 11, when the thread push rod 9 is not used, the adjusting rod is taken down, and the adjusting hand wheel 12 is prevented from being collided by a surface, so that the positioning glass bead screw 11 is staggered with the threaded hole 10, and even the threads on the positioning glass bead screw 11 or the threaded hole 10 are damaged.

Specifically, as shown in fig. 5, the contact surface between the positioning bead screw 11 and the sidewall of the TR assembly 1 is spherical. The effect is to avoid damage to the surface of the TR element 1 caused by contact of the angular surface with the side wall of the TR element 1.

Specifically, as shown in fig. 3, the locking assembly 8 is disposed on one side of the moving plate 2 opposite to the fine adjustment assembly 7, the locking assembly 8 includes an adjusting block 13 corresponding to a side wall of the TR assembly 1, a sliding groove 14 penetrating through upper and lower surfaces of the adjusting block 13 is disposed on the adjusting block 13, the sliding groove 14 extends in a direction perpendicular to the side wall of the TR assembly 1, and a locking bolt 15 threadedly connected with the moving plate 2 is penetrated in the sliding groove 14. The adjusting device has the effects that through the arrangement of the adjusting block 13 and the locking bolt 15, when the fine adjustment assembly 7 pushes the TR assembly 1 to move towards the adjusting block 13, the TR assembly 1 pushes the adjusting block 13 to move, meanwhile, through the arrangement of the sliding groove 14, the locking bolt 15 generates position change relative to the adjusting block 13 in the sliding groove 14, and due to the fact that the locking bolt 15 is in threaded connection with the moving plate 2, the locking bolt 15 keeps pressure on the adjusting block 13 in the moving process of the adjusting block 13, and the adjusting block 13 has a locking function on the TR assembly 1 through the locking effect of the locking bolt 15 on the adjusting block 13.

Specifically, as shown in fig. 3, the locking bolt 15 is a round head bolt, and a hexagonal groove is formed in the top of the locking bolt 15. Which functions to facilitate the use of a hexagonal wrench to turn the locking bolt 15.

Specifically, as shown in fig. 3, the width of the sliding groove 14 is matched with the screw diameter of the locking bolt 15, the sliding groove 14 is provided with a sunken table 16 matched with the outer diameter of the head of the locking bolt 15, and the depth of the sunken table 16 is greater than the height of the head of the locking bolt 15. The locking bolt 15 is arranged in the sliding groove 14 through the sinking platform 16, the top end of the locking bolt 15 is located in the sliding groove 14, the bottom surface of the locking bolt 15 is in contact with the top surface of the sinking platform 16, the pressure of the locking bolt 15 on the adjusting block 13 is kept, meanwhile, the top end of the locking bolt 15 is prevented from being higher than the top end of the adjusting block 13, and therefore the locking effect of the locking bolt 15 on the adjusting block 13 is prevented from being influenced due to the fact that the locking bolt 15 is staggered due to the fact that the head of the locking bolt 15 is collided.

Specifically, as shown in fig. 1, the longitudinal adjustment mechanism 6 includes a ball screw 17, a nut base 18 of the ball screw 17 is connected to the bottom surface of the moving plate 2, guide rails 20 are disposed on two sides of a screw 19 of the ball screw 17 and parallel to the extending direction of the screw 19, and a slider 21 connected to the bottom surface of the moving plate 2 is disposed on the guide rails 20. The extension direction of the lead screw 19 is parallel to the extension direction of the signal pin 4. The screw rod installation structure is characterized by further comprising a bottom plate, two installation frames are arranged on the bottom plate, annular grooves are formed in two sides of the outer side of the thread section of the screw rod 19, the installation frames are sleeved outside the annular grooves, and the screw rod 19 is prevented from moving along the extending direction of the screw rod through the installation frames. The function of the positioning device is that through the arrangement of the ball screw 17, when the operation screw 19 rotates around the axis of the screw, the nut base 18 moves along the extending direction of the screw 19, so that the moving plate 2 connected with the nut base 18 moves towards the alignment module 3, and the signal contact pin 4 can be in butt joint with the detection jack 5.

Specifically, as shown in fig. 1, a guide positioning pin 22 parallel to the extending direction of the guide rail 20 is disposed on the moving plate 2, and a positioning groove 23 matched with the guide positioning pin 22 is disposed on the alignment module 3. Guide pin 22 and constant head tank 23 all are cylindricly, and its effect does, through guide pin 22's setting, when guide pin 22 entered into constant head tank 23 in, can avoid the in-process production of moving plate 2 advancing to rock.

Specifically, as shown in fig. 1, the axis of the fine adjustment assembly 7 is aligned with the normal line of the center of the side wall of the locking assembly 8. The locking assembly has the effects that the stress positions of two sides of the locking assembly 8 are corresponding, the TR assembly 1 is prevented from deflecting on the moving plate 2 due to the fact that the stress positions are staggered, and therefore the signal contact pin 4 and the detection jack 5 are obliquely arranged and cannot be connected.

The working principle of the embodiment is explained as follows: firstly, placing a TR component 1 on a moving plate 2, enabling a signal pin 4 and a detection jack 5 to be arranged in parallel and located at the same height, loosening a locking bolt 15, screwing out the positioning glass bead screw 11 in the direction away from the TR component 1 after inserting an adjusting hand wheel 12 into the positioning glass bead screw 11, enabling the signal pin 4 to be located on the side close to the positioning glass bead screw 11 relative to the detection jack 5, then keeping an adjusting block 13 in contact with the TR component 1 under the condition that the TR component 1 is kept in contact with the positioning glass bead screw 11, then screwing the locking bolt 15, enabling the locking bolt 15 to press a sinking platform 16 on an adjusting block 13 tightly, then rotating a screw rod 19, enabling a nut base 18 to move along the extending direction of the screw rod 19, so as to drive the TR component 1 on the moving plate 2 to move towards an alignment module 3, when a guide positioning pin 22 enters a positioning groove 23, rotating the adjusting hand wheel 12 on the positioning glass bead screw 11, enabling the positioning glass bead screw 11 to rotate in a threaded hole 10, thereby slowly pushing the TR component 1 to move towards the side away from the positioning glass bead screw 11, enabling the axis of the signal pin 4 to coincide with the axis of the corresponding detection jack 5, and then continuing to insert the signal pin 4 into the detection jack 19.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and the technical essence of the present invention is that within the spirit and principle of the present invention, any simple modification, equivalent replacement, and improvement made to the above embodiments are all within the protection scope of the technical solution of the present invention.

Claims (10)

1. A TR component transverse locking fine adjustment aligning device comprises a moving plate (2) used for installing a TR component (1) and an aligning module (3) corresponding to the TR component (1) placed on the TR component (1);

a signal contact pin (4) is arranged on the TR component (1), a detection jack (5) matched with the signal contact pin (4) is arranged on the alignment module (3), and the signal contact pin (4) and the detection jack (5) are oppositely arranged in parallel in the state that the TR component (1) is installed on the moving plate (2);

a longitudinal adjusting mechanism (6) for driving the moving plate (2) to enable the TR component (1) on the moving plate (2) and the signal contact pin (4) on the TR component (1) to move towards the detection jack (5) along the self extending direction is arranged below the moving plate (2);

the method is characterized in that:

the left side and the right side of the moving plate (2) in the advancing direction of the TR component (1) are respectively provided with a fine adjustment component (7) used for pushing the TR component (1) to move in the plane where the bottom surface of the moving plate is located along the direction vertical to the extending direction of the signal contact pin (4) and a locking component (8) moving along with the TR component (1) and capable of locking the TR component (1) to a certain extent.

2. The TR-module lateral-locking fine-tuning alignment device of claim 1, wherein: fine setting subassembly (7) are equipped with threaded screw thread push rod (9) on including the lateral wall, are equipped with extending direction and the corresponding and perpendicular screw hole (10) that set up of TR subassembly (1) lateral wall on arbitrary one side in TR subassembly (1) the left and right sides on advancing direction on movable plate (2), and screw thread push rod (9) pass through threaded connection with screw hole (10).

3. A TR-module lateral-locking fine-adjustment aligning device as claimed in claim 2, wherein: the thread push rod (9) comprises a positioning glass bead screw (11) and an adjusting hand wheel (12) which can be separated from each other, the outer surface of the positioning glass bead screw (11) is provided with a thread matched with the threaded hole (10), the adjusting hand wheel (12) is provided with an adjusting rod which is embedded into the positioning glass bead screw (11) along the axis of the positioning glass bead screw (11), and the adjusting rod is prismatic.

4. A TR-module lateral-locking fine-adjustment aligning device according to claim 3, wherein: the contact surface of the positioning glass bead screw (11) and the side wall of the TR component (1) is spherical.

5. A TR-module lateral-locking fine-adjustment aligning device as claimed in claim 2, wherein: locking subassembly (8) are located one side relative with fine setting subassembly (7) on movable plate (2), and locking subassembly (8) include with corresponding regulating block (13) of the lateral wall of TR subassembly (1), are equipped with spout (14) that run through regulating block (13) upper and lower surface on regulating block (13), spout (14) are followed and are extended with TR subassembly (1) lateral wall vertically direction, run through in spout (14) and be equipped with locking bolt (15) with movable plate (2) threaded connection.

6. The TR component lateral-locking fine-tuning alignment device as claimed in claim 5, wherein: the locking bolt (15) adopts a round-head bolt, and the top of the locking bolt (15) is provided with a hexagonal groove.

7. The TR component lateral-locking fine-tuning alignment device as claimed in claim 6, wherein: the screw rod major diameter of the locking bolt (15) of the width of spout (14) matches, is equipped with on spout (14) with the head external diameter assorted heavy platform (16) of locking bolt (15), the degree of depth of heavy platform (16) is greater than the height of the head of locking bolt (15).

8. A TR-module lateral-locking fine-adjustment aligning apparatus according to claim 1, wherein: the longitudinal adjusting mechanism (6) comprises a ball screw (17), a nut base (18) of the ball screw (17) is connected to the bottom surface of the moving plate (2), guide rails (20) which are parallel to the extending direction of the ball screw (19) are arranged on two sides of the screw (19) of the ball screw (17), and a sliding block (21) connected to the bottom surface of the moving plate (2) is arranged on each guide rail (20).

9. The TR-module lateral-locking fine-tuning alignment device of claim 1, wherein: the movable plate (2) is provided with a guide positioning pin (22) which is arranged in parallel with the extending direction of the guide rail (20), and the alignment module (3) is provided with a positioning groove (23) which is matched with the guide positioning pin (22).

10. The TR-module lateral-locking fine-tuning alignment device of claim 1, wherein: the axis of the fine adjustment component (7) is positioned on the same straight line with the normal line of the center of the side wall of the locking component (8).

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