CN114932624B - Multi-specification embedded part production line and production process thereof - Google Patents

Abstract

The invention provides a multi-specification embedded part production line and a production process thereof, which relate to the technical field of embedded part production and comprise the following steps: the adaptation dish, the adaptation dish is pegged graft in the inside of mounting panel, the regulation and control subassembly can realize through locating component that the centre gripping to the built-in fitting blank is fixed, make things convenient for the workman to each item processing operation to the blank, the maximum clamping force of the two sets of clamping mechanism of the device can be free simultaneously, mutually independent regulation is used, thereby can adapt to the centre gripping to different grade type and specification blank, fixed and each item processing operation, and the device locating component can realize changing the function of the fixed angle of fixed blank with the installation riser for split type design, solved current fixing device and can't adapt to carry out the centre gripping fixedly to the blank of different specifications and processing demand, the flexibility is relatively poor, and can only tear an ann blank once more when the fixed angle of blank needs to be adjusted after fixed accomplishing, loaded down with trivial details problem of step.

Description

Multi-specification embedded part production line and production process thereof

Technical Field

The invention relates to the technical field of embedded part production, in particular to a multi-specification embedded part production line and a production process thereof.

Background

The embedded parts are members pre-installed in hidden projects, namely, structural parts arranged during structure pouring are used for lap joint during building of an upper structure so as to be beneficial to installation and fixation of an external engineering equipment foundation.

At present, the production of embedded parts has possessed perfect production line, and the blank of embedded parts can be carried on the conveyer belt, and the blank is carried to each station through the conveyer belt and is carried out production operations such as welding, cutting and polishing, and when the blank was processed production at each station, all need use fixing device to carry out the centre gripping to the blank fixed, makes things convenient for the workman to each item processing operation of blank.

However, as for the fixing device on the current embedded part production line, the clamping force of the two clamping blocks is always equal, independent adjustment cannot be achieved, clamping and fixing of blanks of different specifications and processing requirements cannot be achieved, the flexibility is poor, the existing fixing device is directly fixed on the working table, fixed angles of the blanks cannot be adjusted after the blanks are fixed, the blanks can only be detached and installed again when the fixed angles of the blanks need to be adjusted after the blanks are fixed, the steps are complex, the working efficiency is low, and the practicability is low.

Disclosure of Invention

In view of the above, the invention provides a multi-specification embedded part production line and a production process thereof, which are provided with a regulation and control assembly, wherein the regulation and control assembly can control the use state of a positioning assembly, so that the positioning assembly can clamp and fix embedded part blank pieces, and is convenient for workers to perform various processing operations on the blank pieces, and meanwhile, the maximum clamping force of two groups of clamping mechanisms of the device can be freely and independently adjusted and used, so that the device can be suitable for clamping, fixing and various processing operations on blank pieces of different types and specifications.

The invention provides a multi-specification embedded part production line and a production process thereof, and specifically comprises the following steps: the mounting vertical plate is fixedly mounted at the top of a working platform of the embedded part production line; the positioning assembly comprises a positioning disc, a fixing clamp, a control wheel and an installation plate, the positioning disc is rotatably connected to the side face of the installation vertical plate, the fixing clamp is inserted into the positioning disc, the control wheel is rotatably connected to the side face of the positioning disc, and the installation plate is fixedly installed at the bottom of the positioning disc; the regulation and control subassembly, the regulation and control subassembly is including synchronizing wheel, control rod, adaptation dish, location pressure disk and regulation pole, and synchronizing wheel rotation connection is in the inside of mounting panel, be connected through chain drive between synchronizing wheel and the control wheel, and the control rod rotates the inside of connecting at the mounting panel, the adaptation dish is pegged graft in the inside of mounting panel, and the location pressure disk is pegged graft in the inside of mounting panel, the one end of adjusting the pole is rotated and is connected the inside at the location pressure disk.

Furthermore, the side of the body of the positioning disc is provided with a circular arc-shaped track ring, the cross section of the track ring is designed in a T shape, a track groove is formed in the mounting vertical plate, the angle of the track ring body and the angle of the groove body of the track groove are both larger than one hundred eighty degrees, the track ring is inserted in the track groove, and the positioning screws are screwed in the mounting vertical plates at the two ends of the groove body of the track groove through threads.

Furthermore, a group of clamping mechanisms is formed by the fixing clamp and the control wheel, two groups of symmetrical clamping mechanisms are arranged inside the positioning disc, threads are arranged on the outer portion of the rod body of the side cross rod of the fixing clamp, and the fixing clamp is screwed inside the control wheel through the threads of the rod body of the side cross rod.

Further, the inside of mounting fixture side horizontal pole is equipped with the constant head tank, and the inside of positioning disk is equipped with the locating piece, and the locating piece is pegged graft in the inside of constant head tank.

Furthermore, the opposite side surfaces of the synchronizing wheel and the adaptive disk are provided with pressure tooth grooves, and the synchronizing wheel and the pressure tooth grooves of the adaptive disk are mutually meshed and clamped.

Furthermore, the synchronizing wheel, the adaptive disc, the positioning pressure disc and the adjusting rod jointly form a regulating mechanism, the regulating mechanism is symmetrically arranged in the mounting plate, the cross sections of the rod bodies on the two sides of the operating rod are regular polygons, the adaptive disc is internally provided with a synchronizing groove, and the regular polygonal rod body part of the operating rod is inserted in the synchronizing groove.

Furthermore, the body of rod of control rod passes the inside of location pressure disk, regulation pole and synchronizing wheel, and the body of rod outside of adjusting the pole is equipped with the screw thread, adjusts the pole and connects in the inside of mounting panel through body of rod screw thread.

Furthermore, the side of the positioning pressure plate is provided with a pressure spring, and two ends of the pressure spring respectively support against the side of the positioning pressure plate and the side of the adaptive plate.

Furthermore, the cross-sectional shape of the positioning pressure plate is a regular polygon, a control groove is formed in the mounting plate, and the positioning pressure plate is inserted in the control groove.

Advantageous effects

The device is when using, the regulation and control subassembly can be controlled locating component's user state, thereby make locating component realize fixed to the centre gripping of built-in fitting blank, make things convenient for the workman to each item processing operation of blank, the maximum centre gripping dynamics of two sets of clamping mechanisms of the device can be free simultaneously, mutually independent adjusts the use, thereby can adapt to the centre gripping of dealing with different grade type and specification blank, fixed and each item processing operation, and the device locating component is split type design with the installation riser, fix a position locating component's use angle through the location screw rod, thereby make the device can still realize changing the function of the fixed angle of fixed blank through loosening positioning screw rod and rotation locating component after fixing the completion to the blank, adaptability is extremely strong, work efficiency improves greatly, the operation of workman has been made things convenient for, the flexibility of the device has been improved, adaptability and practicality.

In addition, the regulation and control subassembly can realize that the centre gripping of embedded part blank is fixed through locating component, thereby carry out each item production and processing operation to the blank, when rotating the control rod, the body of rod at control rod regular polygon position can drive the adaptation dish through the synchronizing groove and rotate, the adaptation dish is supported in the side of synchronizing wheel under the effect of pressure spring, thereby adaptation dish can drive the synchronizing wheel and rotate under the mating reaction of two pressure tooth's socket this moment, can drive the control wheel through the chain again and rotate when the synchronizing wheel rotates, thereby can drive the mounting fixture removal through the body of rod screw thread of mounting fixture horizontal pole when the control wheel rotates, the control rod can control two sets of regulation and control mechanisms and drive the synchronous incorgruous removal of mounting fixture of two sets of clamping mechanism in step, thereby realized that the centre gripping to the blank is fixed, the operation is nimble convenient, made things convenient for the workman to each item processing and production operation of blank.

In addition, the biggest clamping force of the two sets of clamping mechanisms of the device can be freely adjusted and do not interfere with each other, the design can also avoid the phenomenon that the blank work piece is crowded flat damage to take place because of too big clamping force, the use is stable, the pressure through the pressure top spring is transmitted between adaptation dish and the synchronizing wheel, the removal resistance of the fixing clamp is gradually increased when the blank work piece is fixed in the centre gripping, when the removal resistance of the fixing clamp is greater than the pressure of the pressure top spring to the adaptation dish, thereby the adaptation dish can be automatically moved at the body of rod of control rod to make the pressure tooth's socket of adaptation dish and synchronizing wheel can avoid by dislocation of each other, make clamping mechanism can't continue to remove the fixed blank work piece of centre gripping, thereby the biggest clamping force of clamping mechanism has been restricted, the work piece has been protected not damaged crowded flat, stable in use.

In addition, when rotating the regulation pole, the regulation pole can move at the inside of mounting panel under the body of rod screw thread effect, it can drive location pressure disk synchronous motion to adjust the pole when removing, thereby the interval between location pressure disk and the adaptation dish has been changed, the initial compression length of pressure top spring has been changed promptly, thereby required dynamics when dodging each other between two pressure tooth's socket of adaptation dish and synchronizing wheel has been changed, thereby the biggest centre gripping dynamics of anchor clamps mechanism has been adjusted, and two sets of fixture can be through two sets of regulation and control mechanism independent regulation each other, high durability and convenient use, can adapt to the different grade type, the blank of specification carries out fixed processing production and use, flexibility and adaptability are extremely strong.

In addition, the blank is after locating component's inside is fixed to be accomplished, fixed angle still can be adjusted, positioning screw has realized through compressing tightly the track ring that the positioning disk even whole locating component position of use and angle are fixed, thereby when the blank is in the fixed angle that needs to change the blank in locating component's inside, only need unscrew positioning screw, thereby locating component can rotate along the track groove through the track ring this moment and has changed locating component's use angle and position, adjust after accomplishing again through positioning screw with locating component's position of use and angle fixed can.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 shows a schematic diagram of the structure of the present invention;

FIG. 2 shows a schematic of the internal structure of the present invention;

FIG. 3 is a schematic structural view of the mounting plate of the present invention after disassembly;

FIG. 4 is a schematic view of the puck of the present invention shown disassembled;

FIG. 5 shows a schematic structural view of the conditioning assembly of the present invention after disassembly;

figure 6 is a schematic diagram showing the inside of the right clamping mechanism after adjusting the maximum clamping force;

FIG. 7 is a schematic view showing the inner structure of the present invention after the blank member is fixed and the fixed angle is adjusted;

FIG. 8 is an enlarged view of portion A of FIG. 2 illustrating the present invention;

fig. 9 is an enlarged schematic view of the invention at the position B in fig. 6.

List of reference numerals

1. Installing a vertical plate; 101. a track groove; 2. a positioning assembly; 201. positioning a plate; 2011. an orbital ring; 2012. positioning a block; 202. fixing the clamp; 2021. positioning a groove; 203. a control wheel; 204. mounting a plate; 2041. a control slot; 3. a regulatory component; 301. a synchronizing wheel; 302. a joystick; 303. an adaptive disk; 3031. a pressure tooth groove; 3032. a synchronization slot; 304. positioning a pressure plate; 3041. a pressure top spring; 305. and adjusting the rod.

Detailed Description

In order to make the objects, aspects and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail with reference to the accompanying drawings. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to fig. 9:

the invention provides a multi-specification embedded part production line and a production process thereof, wherein the production process comprises the following steps: the method comprises the following steps that a vertical plate 1 is installed, and the vertical plate 1 is fixedly installed at the top of a working platform of an embedded part production line; the positioning assembly 2 comprises a positioning disc 201, a fixing clamp 202, a control wheel 203 and a mounting plate 204, the positioning disc 201 is rotatably connected to the side face of the mounting vertical plate 1, the fixing clamp 202 is inserted into the positioning disc 201, the control wheel 203 is rotatably connected to the side face of the positioning disc 201, and the mounting plate 204 is fixedly mounted at the bottom of the positioning disc 201; regulating and controlling subassembly 3, regulating and controlling subassembly 3 is including synchronizing wheel 301, control rod 302, adaptation dish 303, location pressure disk 304 and regulation pole 305, and synchronizing wheel 301 rotates the inside of connecting at mounting panel 204, be connected through chain drive between synchronizing wheel 301 and the control wheel 203, and control rod 302 rotates the inside of connecting at mounting panel 204, adaptation dish 303 is pegged graft in the inside of mounting panel 204, and location pressure disk 304 is pegged graft in the inside of mounting panel 204, the one end rotation of regulation pole 305 is connected in the inside of locating pressure disk 304.

In addition, according to the embodiment of the present invention, as shown in fig. 3 and 4, a circular arc-shaped track ring 2011 is disposed on a side surface of a disc body of the positioning disc 201, the cross-sectional shape of the track ring 2011 is a "T" shaped design, the track groove 101 is disposed inside the mounting riser 1, both the angle of the ring body of the track ring 2011 and the angle of the groove body of the track groove 101 are greater than one hundred eighty degrees, the track ring 2011 is inserted into the track groove 101, and positioning screws are screwed into the insides of the mounting risers 1 located at two ends of the groove body of the track groove 101 through threads.

In addition, according to the embodiment of the present invention, as shown in fig. 5, the opposite side surfaces of the synchronizing wheel 301 and the adaptive disk 303 are respectively provided with a pressure spline 3031, and the synchronizing wheel 301 and the pressure spline 3031 of the adaptive disk 303 are engaged and clamped with each other, in use, when the operating lever 302 is rotated, the rod body at the regular polygon position of the operating lever 302 can drive the adaptive disk 303 to rotate through the synchronizing groove 3032, the adaptive disk 303 is supported against the side surface of the synchronizing wheel 301 under the action of the pressure top spring 3041, so that the adaptive disk 303 can drive the synchronizing wheel 301 to rotate under the cooperation of the two pressure splines 3031, when the synchronizing wheel 301 rotates, the control wheel 203 can be driven to rotate through a chain, the fixing clamp 202 and the control wheel 203 form a group of clamping mechanisms, and the clamping mechanisms are provided with two symmetrical groups inside the positioning disk 201, the threads of the rod body at the side surface of the fixing clamp 202 are provided with threads, and the fixing clamp 202 is screwed inside the control wheel 203 through the threads of the rod body of the side surface cross rod body, so that the fixing clamp 202 can be driven to move the two groups of rod bodies of the fixing clamp 302, thereby facilitating the blank to be clamped by a worker who clamps the fixing mechanism to clamp the blank to conveniently and conveniently process the blank.

In addition, according to the embodiment of the present invention, as shown in fig. 4, a positioning groove 2021 is disposed inside the lateral cross bar of the fixing clamp 202, a positioning block 2012 is disposed inside the positioning plate 201, and the positioning block 2012 is inserted into the positioning groove 2021, in use, the positioning block 2012 can limit the moving track of the fixing clamp 202 through the positioning groove 2021, so that the fixing clamp 202 does not skew or twist during moving to cause the occurrence of the device jamming failure, and meanwhile, the fixing clamp 202 does not rotate along with the control wheel 203 when the control wheel 203 rotates, and is stable in use.

In addition, according to the embodiment of the present invention, as shown in fig. 5, the synchronizing wheel 301, the adaptive disk 303, the positioning pressure disk 304 and the adjusting rod 305 together form an adjusting mechanism, and the adjusting mechanism is provided with two symmetrical sets inside the mounting plate 204, the cross-sectional shapes of the rod bodies on both sides of the operating rod 302 are regular polygons, the adaptive disk 303 is provided with the synchronizing slot 3032 inside, and the regular polygonal rod body portion of the operating rod 302 is inserted inside the synchronizing slot 3032, in use, the maximum clamping force of the two sets of clamping mechanisms can be freely adjusted without interfering with each other, and the design can also avoid the phenomenon that the blank workpiece is crushed and damaged due to the excessive clamping force.

In addition, according to the embodiment of the present invention, as shown in fig. 5, a pressure spring 3041 is disposed on a side surface of the positioning pressure plate 304, and two ends of the pressure spring 3041 respectively abut against a side surface of the positioning pressure plate 304 and a side surface of the adaptive disk 303, in use, the adaptive disk 303 and the synchronizing wheel 301 are driven by the pressure of the pressure spring 3041, the moving resistance of the fixing clamp 202 is gradually increased when clamping a fixed blank, and when the moving resistance of the fixing clamp 202 is greater than the pressure of the pressure spring 3041 on the adaptive disk 303, the adaptive disk 303 automatically moves on the rod body of the operating rod 302, so that the pressure tooth sockets 3031 of the adaptive disk 303 and the synchronizing wheel 301 are dislocated with each other, and the clamping mechanism cannot continuously move to clamp the fixed blank, thereby limiting the maximum clamping force of the clamping mechanism, protecting the workpiece from being damaged, squeezed and stable in use.

In addition, according to the embodiment of the present invention, as shown in fig. 5, the rod body of the operating rod 302 passes through the positioning platen 304, the adjusting rod 305 and the inside of the synchronizing wheel 301, and the outside of the rod body of the adjusting rod 305 is provided with a thread, the adjusting rod 305 is screwed inside the mounting plate 204 through the thread of the rod body, in use, when the adjusting rod 305 is rotated, the adjusting rod 305 can move inside the mounting plate 204 under the action of the thread of the rod body, and the adjusting rod 305 can drive the positioning platen 304 to move synchronously when moving, so that the distance between the positioning platen 304 and the adaptive disk 303 is changed, that is, the initial compression length of the pressure top spring 3041 is changed, so that the force required when the two pressure tooth sockets 3031 of the adaptive disk 303 and the synchronizing wheel 301 are mutually retracted is changed, thereby the maximum clamping force of the clamping mechanism is adjusted, and the two groups of clamping mechanisms can be independently adjusted through the two groups of adjusting and controlling mechanisms, which are independent and convenient to use, and can be suitable for fixing, processing and producing and using blank blanks of different types and specifications.

In addition, according to the embodiment of the present invention, as shown in fig. 5 and 8, the cross-sectional shape of the positioning platen 304 is a regular polygon, the control groove 2041 is disposed inside the mounting plate 204, and the positioning platen 304 is inserted into the control groove 2041, in use, the control groove 2041 can limit the moving track of the positioning platen 304, and the control groove 2041 can prevent the positioning platen 304 from rotating along with the rotation of the adjusting rod 305, so as to further improve the stability of the device.

The specific use mode and function of the embodiment are as follows: in the invention, the blank is conveyed between each station through a conveyor belt, thereby forming a complete embedded part production line, the device is arranged on each station, the blank can be fixed by the device to facilitate subsequent processing and production operations, the maximum clamping force of the two clamping mechanisms of the device is adjusted according to the specification and the type of the blank, the maximum clamping force of the two clamping mechanisms can be freely adjusted without mutual interference, the adjusting rod 305 is rotated, the adjusting rod 305 can move in the mounting plate 204 under the action of rod threads, the adjusting rod 305 can drive the positioning pressure plate 304 to synchronously move when moving, thereby the distance between the positioning pressure plate 304 and the adapting disc 303 is changed, namely the initial compression length of the pressure top spring 3041 is changed, thereby the force required when the two pressure tooth sockets 3031 of the adapting disc 303 and the synchronizing wheel 301 can mutually avoid is changed, thereby the maximum clamping force of the clamping mechanism is adjusted, and the two clamping mechanisms can drive the rotating control rod 302 to synchronously rotate the polygonal rotating control rod 302 under the synchronous control action of the rotating control rod 202 and the rotating control rod 202, the rotating control rod 302 can drive the rotating control rod 302 to synchronously drive the rotating control rod clamp 301 from the rotating control rod 203 through the two sets of the positioning components, the rotating control wheel 203 and the rotating control rod 301, the control rod 302 can control the two sets of regulating mechanisms to synchronously drive the fixing clamps 202 of the two sets of clamping mechanisms to synchronously move in different directions, so that blank pieces are clamped and fixed, transmission is performed between the adaptation disc 303 and the synchronizing wheel 301 through the pressure of the pressure top spring 3041, the moving resistance of the fixing clamps 202 is gradually increased when the blank pieces are clamped and fixed, when the moving resistance of the fixing clamps 202 is greater than the pressure of the pressure top spring 3041 on the adaptation disc 303, the adaptation disc 303 can automatically move on the rod body of the control rod 302, so that the adaptation disc 303 and the pressure tooth socket 3031 of the synchronizing wheel 301 can be staggered and avoided mutually, so that the clamping mechanisms cannot continuously move to clamp and fix the blank pieces, the maximum clamping force of the clamping mechanisms is limited, the workpiece is protected from being damaged and crushed, the blank pieces can still be adjusted in the positioning assembly 2 after the fixing of the blank pieces is completed in the positioning assembly 2, the fixing screw rod can be used for fixing the positioning assembly 2 and even for the whole positioning assembly 2 through the rail ring 2011, and the screw rod can be used for adjusting the positioning assembly after the positioning ring is loosened, and the positioning assembly 2011 can be used for the positioning assembly after the positioning assembly is loosened, and the positioning ring can be used for the positioning assembly, and the positioning assembly again through the screw rod 2011 and the screw rod can be used for adjusting the positioning assembly, so that the positioning assembly can be used for the positioning assembly.

Finally, it should be noted that, when describing the positions of the components and the matching relationship between the components, the invention will be generally exemplified by one/a pair of components, however, it should be understood by those skilled in the art that such positions, matching relationship, etc. are also applicable to other components/other pairs of components.

The above description is intended to be illustrative of the present invention and not to limit the scope of the invention, which is defined by the claims appended hereto.

Claims (8)

1. The utility model provides a many specifications built-in fitting production line which characterized in that, the production line includes fixing device, and fixing device includes: the mounting vertical plate (1), wherein the mounting vertical plate (1) is fixedly mounted at the top of a working platform of the embedded part production line; the positioning device comprises a positioning assembly (2), wherein the positioning assembly (2) comprises a positioning disc (201), a fixing clamp (202), a control wheel (203) and a mounting plate (204), the positioning disc (201) is rotatably connected to the side surface of a mounting vertical plate (1), the fixing clamp (202) is inserted into the positioning disc (201), the control wheel (203) is rotatably connected to the side surface of the positioning disc (201), and the mounting plate (204) is fixedly mounted at the bottom of the positioning disc (201); the adjusting and controlling assembly (3) comprises a synchronizing wheel (301), a control lever (302), an adaptation disc (303), a positioning pressure disc (304) and an adjusting lever (305), the synchronizing wheel (301) is rotatably connected inside the mounting plate (204), the synchronizing wheel (301) is in transmission connection with the control wheel (203) through a chain, the control lever (302) is rotatably connected inside the mounting plate (204), the adaptation disc (303) is inserted inside the mounting plate (204), the positioning pressure disc (304) is inserted inside the mounting plate (204), and one end of the adjusting lever (305) is rotatably connected inside the positioning pressure disc (304);

the side face of a plate body of the positioning plate (201) is provided with a circular arc-shaped track ring (2011), the cross section of the track ring (2011) is in a T-shaped design, a track groove (101) is formed in the mounting vertical plate (1), the angle of a ring body of the track ring (2011) and the angle of a groove body of the track groove (101) are both larger than one hundred eighty degrees, the track ring (2011) is inserted into the track groove (101), and positioning screws are screwed into the insides of the mounting vertical plates (1) at the two ends of the groove body of the track groove (101) through threads;

a set of clamping mechanism has been constituteed to mounting fixture (202) and control wheel (203), and clamping mechanism is equipped with two sets of symmetry in the inside of positioning disk (201), and the body of rod outside of mounting fixture (202) side horizontal pole is equipped with the screw thread, and mounting fixture (202) screw-connects in the inside of control wheel (203) through the screw thread of the side horizontal pole body of rod.

2. The multi-specification embedded part production line of claim 1, wherein: the inside of mounting fixture (202) side horizontal pole is equipped with constant head tank (2021), and the inside of positioning disk (201) is equipped with locating piece (2012), and pegs graft in the inside of constant head tank (2021) locating piece (2012).

3. The multi-specification embedded part production line of claim 1, wherein: the opposite side surfaces of the synchronizing wheel (301) and the adaptive disc (303) are respectively provided with a pressure tooth groove (3031), and the pressure tooth grooves (3031) of the synchronizing wheel (301) and the adaptive disc (303) are mutually occluded and clamped.

4. The multi-specification embedded part production line of claim 1, wherein: synchronizing wheel (301), adaptation dish (303), location pressure disk (304) and regulation pole (305) have constituteed regulation and control mechanism jointly, and regulation and control mechanism is equipped with symmetrical two sets ofly in the inside of mounting panel (204), and the cross sectional shape of the body of rod of control rod (302) both sides is regular polygon, and the inside of adaptation dish (303) is equipped with synchronization groove (3032), and the body of rod part grafting of control rod (302) regular polygon is in the inside of synchronization groove (3032).

5. The multi-specification embedded part production line as claimed in claim 1, wherein: the rod body of the operating rod (302) penetrates through the positioning pressure plate (304), the adjusting rod (305) and the synchronizing wheel (301), the outer portion of the rod body of the adjusting rod (305) is provided with threads, and the adjusting rod (305) is screwed in the mounting plate (204) through the threads of the rod body.

6. The multi-specification embedded part production line of claim 1, wherein: the side surface of the positioning pressure plate (304) is provided with a pressure top spring (3041), and two ends of the pressure top spring (3041) are respectively abutted against the side surface of the positioning pressure plate (304) and the side surface of the adaptive plate (303).

7. The multi-specification embedded part production line as claimed in claim 1, wherein: the cross-sectional shape of the positioning pressure plate (304) is regular polygon, a control groove (2041) is arranged in the mounting plate (204), and the positioning pressure plate (304) is inserted in the control groove (2041).

8. The production process of the multi-specification embedded part production line of claim 1, wherein: the method comprises the following steps:

1. the blank pieces are conveyed between the stations in a circulating manner through the conveying belt, so that a complete embedded part production line is formed, the fixing device is mounted on each station, and the blank pieces can be fixed through the fixing device, so that subsequent processing and production operations are facilitated;

2. according to the specification and the type of the blank, the maximum clamping force of the two clamping mechanisms of the fixing device is adjusted, and the maximum clamping force of the two groups of clamping mechanisms can be freely adjusted and do not interfere with each other;

3. the adjusting rod (305) is rotated, the adjusting rod (305) can move in the mounting plate (204) under the action of rod body threads, the adjusting rod (305) can drive the positioning pressure plate (304) to move synchronously when moving, so that the distance between the positioning pressure plate (304) and the adaptive disc (303) is changed, namely the initial compression length of the pressure top spring (3041) is changed, the force required when the two pressure tooth grooves (3031) of the adaptive disc (303) and the synchronizing wheel (301) are mutually avoided is changed, the maximum clamping force of the clamp mechanism is adjusted, and the two groups of clamping mechanisms can be independently adjusted through the two groups of adjusting and controlling mechanisms;

4. after the adjustment is finished, the blank can be fixed for welding, cutting and polishing, the adjusting and controlling component (3) can clamp and fix the blank of the embedded part through the positioning component (2), the operating lever (302) is rotated, the rod body at the regular polygon part of the operating lever (302) can drive the adaptive disc (303) to rotate through the synchronous groove (3032), the adaptive disc (303) is propped against the side surface of the synchronous wheel (301) under the action of the pressure jacking spring (3041), so that the adaptive disc (303) can drive the synchronous wheel (301) to rotate under the matching action of the two pressure tooth grooves (3031), the synchronous wheel (301) can also drive the control wheel (203) to rotate through the chain, the control wheel (203) can drive the fixed clamp (202) to move through the rod body threads of the cross rod of the fixed clamp (202) when rotating, the operating lever (302) can control the two groups of adjusting and controlling mechanisms to synchronously drive the fixed clamps (202) of the two groups of clamping and fixing mechanisms to synchronously move in different directions, and the blank is clamped and fixed;

5. the adaptive disc (303) and the synchronizing wheel (301) are transmitted by the pressure of the pressure top spring (3041), the moving resistance of the fixing clamp (202) is gradually increased when the fixing clamp clamps and fixes the blanks, and when the moving resistance of the fixing clamp (202) is greater than the pressure of the pressure top spring (3041) on the adaptive disc (303), the adaptive disc (303) can automatically move on the rod body of the operating rod (302) so that the adaptive disc (303) and the pressure tooth grooves (3031) of the synchronizing wheel (301) can be staggered and avoided mutually, the clamping mechanism can not continuously move and clamp and fix the blanks, the maximum clamping force of the clamping mechanism is limited, and the workpieces are protected from being damaged and crushed;

6. when the blank needs to change the fixed angle of blank in the fixed completion in inside of locating component (2), only need unscrew positioning screw, thereby locating component (2) can rotate along track groove (101) through orbital ring (2011) this moment and changed locating component (2) use angle and position, adjust after the completion through positioning screw once more with the use position and the angle fixation of locating component (2) can.

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