CN216162578U - Assembling mechanism for split motor stator connecting plate - Google Patents

Abstract

The utility model provides an assembling mechanism for a split motor stator connecting plate, which comprises a pressing mechanism, a pressing head assembly, a positioning jig and a carrier lifting mechanism, wherein the pressing head assembly is arranged on the pressing head assembly; wherein the pressure head assembly is fixed on the pressing mechanism, the positioning jig is fixed on the large base plate, and the carrier lifting mechanism is fixed on the large base plate. The advantages are that: the whole device has very simple structure, convenient operation, reduced labor intensity and low investment cost; the whole device has high automation degree, manual operation only assists automatic feeding and discharging, the whole process is automatic, the production efficiency is effectively improved, and the production efficiency is improved by 30%; the whole device is full-automatic in process, interference of human factors is avoided, product quality is effectively improved, and the product percent of pass is improved by 15%; the pushing mechanism adopts an electric drive servo module mode, the flexibility of the effective lifting mechanism can be compatible with 3 types of products with different models, and meanwhile, the torque and the speed can be monitored in real time, so that the product quality is ensured.

Description

Assembling mechanism for split motor stator connecting plate

Technical Field

The utility model discloses an assembling mechanism for a split motor stator connecting plate, and belongs to the technical field of automatic equipment.

Background

With the rapid development of assembly and manufacturing industries and the continuous improvement of living standard, the quality requirements of people on products are continuously improved, so that higher requirements are provided for processing and assembling products. Traditional connecting plate assembly method mainly relies on manual assembly, because the connecting plate is the working of plastics, and inside has the buckle, and is efficient low in the assembly, and the quality uniformity is low, even appears the condition that the connecting plate damaged. No convenient and reliable special assembling equipment can meet the market demand. Therefore, the development of a professional assembly mechanism with simple operation, high efficiency and stable quality is urgent.

Disclosure of Invention

The utility model provides an assembling mechanism for a split motor stator connecting plate, which aims to solve the problems of low efficiency, poor quality consistency, easy damage of products and the like in the prior art and has the characteristics of simple and safe operation, high efficiency, stable quality and the like.

The technical solution of the utility model is as follows: a splicing motor stator connecting plate assembling mechanism structurally comprises a pressing mechanism 1, a pressing head assembly 2, a positioning jig 3 and a carrier lifting mechanism 4; the pressing head assembly 2 is arranged on the pressing mechanism, the positioning jig 3 is arranged on a large bottom plate 1-1 in the pressing mechanism 1 and right below the pressing head assembly 2, and the carrier lifting mechanism 4 is arranged on the back of the large bottom plate 1-1.

The pressing mechanism 1 comprises a large bottom plate 1-1, a base plate 1-2, a shaft support 1-3, a support shaft 1-4, a shaft connecting seat 1-5, a mounting plate 1-6, a guide rail strip 1-7, a linear guide rail 1-8, a linear module 1-9, a servo motor 1-10, a connecting plate 1-11, a gusset plate 1-12 and a fixing plate 1-13; wherein the base plate 1-2 is fixed on the large bottom plate 1-1; the support shafts 1-3 are fixed on the base plate 1-2, the support shafts 1-4 are installed in the shaft supports 1-3, the shaft connection seats 1-5 are installed on the support shafts 1-4, the mounting plates 1-6 are installed on the shaft connection seats 1-5, the guide rails 1-7 are installed on the mounting plates 1-6, the linear guide rails 1-8 are installed on the guide rails 1-7, the linear modules 1-9 are installed on the mounting plates 1-6, the servo motors 1-10 are installed on the linear modules 1-9, the connecting plates 1-11 are installed on the linear guide rails 1-8 and the linear modules 1-9, and the gusset plates 1-12 are fixedly connected on the connecting plates 1-11 and the fixing plates 1-13.

The pressure head assembly 2 comprises a cylinder fixing plate 2-1, a sliding table cylinder 2-2, a cylinder connecting plate 2-3, a step screw 2-4, a connecting seat 2-5, a spring 2-6, a pressure head 2-7, a line pressing seat 2-8 and a lower pressure rod 2-9; wherein, the cylinder fixing plate 2-1 is arranged on the fixing plate 1-13 in the pressing mechanism 1, and the pressing rod 2-9 is arranged under the fixing plate 1-13; a sliding table cylinder 2-2 is arranged on a cylinder fixing plate 2-1, a cylinder connecting plate 2-3 is arranged on the sliding table cylinder 2-2, a connecting seat 2-5 is fixed on a pressure head 2-7 through a step screw 2-4 and a spring 2-6, and a line pressing seat 2-8 is arranged below the pressure head 2-7. The pressure head assembly 2 adopts a floating structure form, can absorb 1.5mm gap errors, is mainly used for compensating 1-11 connecting plate products, ensures the accuracy of 1-11 connecting plate product assembly, and can effectively prolong the service life of equipment.

The sliding table cylinder 2-2 controls the wire pressing seat 2-8 to move, so that a wire end on the motor stator splicing block is fixed and protected, and the assembling quality is ensured; the bottom ends of the lower pressure rods 2-9 are designed to be oblique angles, and are inserted into the supporting blocks 4-10 in the carrier lifting mechanism 4 in the process of pressing down, so that the supporting blocks 4-10 retreat; the pressure head 2-7 is a profiling structure of 1-11 connecting plate components, the profiling structure is formed by high-precision one-step machining, the pressure head can be accurately attached to the connecting plate, the connecting plate is uniformly stressed in the assembling process, and the connecting plate product is prevented from being damaged. The product qualification rate is improved by 15 percent through verification and statistics.

The positioning jig 3 comprises a support column 3-1, a clamp mounting plate 3-2, a pneumatic claw cylinder 3-3, a chuck connecting plate 3-4, a positioning seat 3-5, a clamping block 3-6, a fixing block 3-7, a sliding seat 3-8, a linear bearing 3-9 and a sliding rod 3-10; wherein the supporting column 3-1 is arranged on a large bottom plate 1-1 in the pressing mechanism 1; the clamp mounting plate 3-2 is mounted on a support column 3-1, the air claw cylinder 3-3 is mounted on the clamp mounting plate 3-2, the chuck connecting plate 3-4 is mounted on the air claw cylinder 3-3, the positioning seat 3-5 is mounted on the clamp mounting plate 3-2, the clamping block 3-6 is mounted below the chuck connecting plate, the fixed block 3-7 is mounted on the clamp mounting plate 3-2, the sliding seat 3-8 is mounted on the chuck connecting plate 3-4, the linear bearing 3-9 is mounted in the sliding seat 3-8, and the sliding rod 3-10 is mounted on the fixed block 3-7 through the linear bearing 3-9.

The carrier lifting mechanism 4 comprises a cylinder 4-1, a cylinder fixing plate 4-2, a fixing shaft 4-3, a jacking plate 4-4, a connecting shaft 4-5, a flange linear bearing 4-6, a supporting sleeve 4-7, a carrier plate 4-8, a pressing plate 4-9, a supporting block 4-10, a bearing 4-11, a No. 1 spring 4-12, a clamping block 4-13, a No. 2 spring 4-14 and a positioning block 4-15; wherein, the fixed shaft 4-3 is fixed under the large bottom plate 1-1 in the pressing mechanism 1, and the flange linear bearing 4-6 is arranged on the large bottom plate 1-1; the air cylinder 4-1 is installed on an air cylinder fixing plate 4-2, the air cylinder fixing plate 4-2 is installed on a fixing shaft 4-3, a jacking plate 4-4 is installed on a connecting shaft 4-5, a flange linear bearing 4-6 and a supporting sleeve 4-7 are arranged on the connecting shaft 4-5 in a sliding mode, a carrier plate 4-8 is installed on the connecting shaft 4-5, a supporting block 4-10 is installed on the carrier plate 4-8, a bearing 4-11 is installed in the supporting block 4-10, a No. 1 spring 4-12 is installed at the rear end of the supporting block 4-10, a clamping block 4-13 is installed on the carrier plate 4-8, a No. 2 spring 4-14 is installed at the rear end of the clamping block 4-13, a positioning block 4-15 is installed on the carrier plate 4-8, and a pressing plate 4-9 is installed on the carrier plate 4-8.

The utility model has the beneficial effects that:

1) the whole device is simple in structure and convenient to operate, and can remarkably reduce labor intensity and input cost.

2) The whole set of device degree of automation is high, and the manual work is supplementary automatic unloading of going up, and full process automation effectively promotes production efficiency, and production efficiency promotes 30%.

3) The whole device is full-automatic in process, interference of human factors is avoided, product quality is effectively improved, and the product percent of pass is improved by 15%.

4) The pushing mechanism adopts an electric drive servo module mode, so that the flexibility of the lifting mechanism is improved, the lifting mechanism can be compatible with various products of different models, and meanwhile, the displacement and the speed can be monitored in real time, so that the product quality is ensured.

5) Pressure head subassembly 2 adopts the floating structure form, can absorb 1.5 mm's clearance error for compensate connecting plate product error itself, guarantee the accuracy of connecting plate product assembly, can effectively improve equipment's life simultaneously.

6) The pressure head is the profile modeling structure of connecting plate part, and the profile modeling structure adopts high-accuracy one shot forming, and the laminating of assurance pressure head and connecting plate that can be accurate guarantees that the connecting plate atress is even in the assembling process, avoids causing the damage of connecting plate product. The product qualification rate is improved by 15 percent through verification and statistics.

Drawings

FIG. 1 is a sectional motor stator connecting plate assembling mechanism.

Fig. 2 is a schematic structural diagram of the pressing mechanism.

Figure 3 is a schematic diagram of the ram assembly construction.

Fig. 4 is a schematic structural view of the positioning jig.

Fig. 5 is a schematic structural view of a carrier lifting assembly.

Fig. 6 is a schematic structural view of a carrier lifting assembly.

Wherein, 1 is a pressing mechanism, 2 is a pressing head component, 3 is a positioning jig mechanism, and 4 is a jig platform lifting component; 1-1 is a large bottom plate, 1-2 is a base plate, 1-3 is a shaft support, 1-4 is a support shaft, 1-5 is a shaft connection seat, 1-6 is a mounting plate, 1-7 is a guide rail bar, 1-8 is a linear guide rail, 1-9 is a linear module, 1-10 is a servo motor, 1-11 is a connecting plate, 1-12 is a gusset plate, and 1-13 is a fixing plate; 2-1 is a cylinder fixing plate, 2-2 is a sliding table cylinder, 2-3 is a cylinder connecting plate, 2-4 is a step screw, 2-5 is a connecting seat, 2-6 is a spring, 2-7 is a pressure head, 2-8 is a line pressing seat, and 2-9 is a lower pressure rod; 3-1 is a support column, 3-2 is a clamp mounting plate, 3-3 is an air claw cylinder, 3-4 is a chuck connecting plate, 3-5 is a positioning seat, 3-6 is a clamping block, 3-7 is a fixing block, 3-8 is a sliding seat, 3-9 is a linear bearing, and 3-10 is a sliding rod; 4-1 is a cylinder, 4-2 is a cylinder fixing plate, 4-3 is a fixing shaft, 4-4 is a jacking plate, 4-5 is a connecting shaft, 4-6 is a flange linear bearing, 4-7 is a supporting sleeve, 4-8 is a carrier plate, 4-9 is a pressing plate, 4-10 is a supporting block, 4-11 is a bearing, 4-12 is a spring, 4-13 is a clamping block, 4-14 is a spring, and 4-15 is a positioning block.

Detailed Description

The technical scheme of the utility model is further explained by combining the attached drawings

As shown in fig. 1, the assembling mechanism for the split motor stator connecting plate is characterized by comprising a pressing mechanism 1, a pressing head assembly 2, a positioning jig 3 and a carrier lifting mechanism 4; the pressing head assembly 2 is fixed on a fixing plate 1-13 of the pressing mechanism 1, the positioning jig 3 is fixed on a large bottom plate 1-1 of the pressing mechanism 1, and the carrier lifting mechanism 4 is fixed on the large bottom plate 1 of the pressing mechanism 1.

As shown in FIG. 2, the pressing mechanism 1 is located at the rear end of the whole mechanism and comprises a large bottom plate 1-1, a base plate 1-2, a shaft support 1-3, a support shaft 1-4, a shaft connection seat 1-5, a mounting plate 1-6, a guide rail bar 1-7, a linear guide rail 1-8, a linear module 1-9, a servo motor 1-10, a connecting plate 1-11, a gusset plate 1-12 and a fixing plate 1-13. Wherein, the base plate 1-2 is fixed on the big bottom plate 1-1; the shaft support 1-3 is fixed on the base plate 1-2, the support shaft 1-4 is fixed in the shaft support 1-3, the shaft connection seat 1-5 is fixed on the support shaft 1-6, the mounting plate 1-6 is fixed on the shaft connection seat 1-5, the guide rail bar 1-7 is fixed on the mounting plate 1-6, the linear guide rail 1-8 is fixed on the guide rail bar 1-7, the linear module 1-9 is fixed on the mounting plate 1-6, the servo motor 1-10 is fixed on the linear module 1-9, the connecting plate 1-11 is fixed on the linear guide rail 1-8 and the linear module 1-9, the gusset plate 1-12 is fixed on the connecting plate 1-11, and the fixing plate 1-13 is fixed on the gusset plate 1-12. Through the combination of the servo motor and the slide rail module, the movement precision of the mechanism can reach +/-0.02 mm

Further, the linear guide rails 1-8 are preferably made of silver, and the preferred model is EGF25CA1R280Z 0H. The linear module 1-9 is preferably made of silver, and preferably has the model number of KK8610C-340A 1-F0C. The servo motors 1-10 are preferably Siemens brands, and the preferred model is 1FL6034-2AF21-1AB 1.

As shown in figure 3, the pressure head assembly 2 comprises a cylinder fixing plate 2-1, a sliding table cylinder 2-2, a cylinder connecting plate 2-3, a step screw 2-4, a connecting seat 2-5, a spring 2-6, a pressure head 2-7, a line pressing seat 2-8 and a lower pressure rod 2-9. The sliding table cylinder 2-2 is used for independently controlling the wire pressing seat 2-8, so that the wire ends on the motor stator splicing blocks are fixed and protected, and the assembling quality is ensured; meanwhile, the shape gradient of the lower pressure rod 2-9 is utilized, the lower pressure rod is inserted into the supporting block 4-10 of the carrier lifting mechanism 4 in the process of pressing down, the supporting block 4-10 is retreated, the product is automatically separated from the carrier, and finally the assembly of the connecting plate and the stator is completed by utilizing the advantages of profiling of the pressure head 2-7.

Further, the sliding table cylinder 2-2 is preferably made by Suideke brand, and the preferred model is HLQ12X10 SA.

As shown in fig. 4, the positioning jig 3 comprises a support column 3-1, a clamp mounting plate 3-2, a pneumatic claw cylinder 3-3, a chuck connecting plate 3-4, a positioning seat 3-5, a clamping block 3-6, a fixing block 3-7, a sliding seat 3-8, a linear bearing 3-9 and a sliding rod 3-10. Wherein the support column 3-1 is fixed on the large bottom plate 1-1; the clamp mounting plate 3-2 is fixed on the support column 3-1, the air claw cylinder 3-3 is fixed on the clamp mounting plate 3-2, the chuck connecting plate 3-4 is fixed on the air claw cylinder 3-3, the positioning seat 3-5 is fixed on the clamp mounting plate 3-2, the clamping block 3-6 is fixed under the chuck connecting plate, the fixed block 3-7 is fixed on the clamp mounting plate 3-2, the sliding seat 3-8 is fixed on the chuck connecting plate 3-4, the linear bearing 3-9 is fixed in the sliding seat 3-8, and the sliding rod 3-10 is fixed on the fixed block 3-7 through the linear bearing 3-9. The jig has the functions of opening and clamping by utilizing the air claw cylinders 3-3, and the center positioning is carried out through the positioning seats 3-5, so that the split stator is fixed on the positioning jig 3, the operation is convenient, and the positioning is accurate.

Further, the air claw cylinder 3-3 is preferably SMC brand, preferably MHF2-16D 1. The linear bearings 3-9 are preferably of the Missimi brand, preferably of the type LMU 8.

As shown in fig. 5, the carrier lifting mechanism 4 includes a cylinder 4-1, a cylinder fixing plate 4-2, a fixing shaft 4-3, a jacking plate 4-4, a connecting shaft 4-5, a flange linear bearing 4-6, a supporting sleeve 4-7, a carrier plate 4-8, a pressing plate 4-9, a supporting block 4-10, a bearing 4-11, a spring 4-12, a clamping block 4-13, a spring 4-14, and a positioning block 4-15. Wherein, the fixed shaft 4-3 is fixed under the large bottom plate 1-1, and the flange linear bearing 4-6 is fixed on the large bottom plate 1-1; the air cylinder 4-1 is fixed on an air cylinder fixing plate 4-2, the air cylinder fixing plate 4-2 is fixed on a fixing shaft 4-3, the jacking plate 4-4 is fixed on a connecting shaft 4-5, a flange linear bearing 4-6 and a supporting sleeve 4-7 are slidably matched on the connecting shaft 4-5, a carrier plate 4-8 is fixed on the connecting shaft 4-5, a supporting block 4-10 is fixed on a carrier plate 4-8, a bearing 4-11 is fixed in the supporting block 4-10, a spring 4-12 is fixed at the rear end of the supporting block 4-10, a clamping block 4-13 is fixed on the carrier plate 4-8, a spring 4-14 is fixed at the rear end of the clamping block 4-13, a positioning block 4-15 is fixed on the carrier plate 4-8, and a pressing plate 4-9 is fixed on the carrier plate 4-8. Utilize cylinder 4-1 to realize the function of carrier liftable, carrier elevating system 4 is when the epistasis, makes things convenient for positioning jig 3 to place to piece together the stator and carrier elevating system 4 places the connecting plate, and after the material loading was accomplished, carrier elevating system 4 descends and makes the connecting plate to positioning jig 3 piece together the stator on, finally accomplishes the assembly by pushing down mechanism 1.

Further, the cylinder 4-1 is preferably of the brand name of Suideke, preferably model ACE32X50 SB. The flanged linear bearings 4-6 are preferably of the Hayda brand, preferably of the type LMQ 22-D20.

The assembling mechanism for the split motor stator connecting plate is reasonable in structure; the whole assembly process only needs manual and simple feeding and discharging, and the operation is simple and safe; the mechanism is easy to be butted with a robot and other automatic loading and unloading mechanisms, so that equipment is upgraded and full-automatic assembly is carried out; the assembly process is automatically completed, so that the influence of human factors is reduced; meanwhile, by utilizing the advantages of the servo motor and the slide rail module, the running precision of the whole mechanism reaches +/-0.02 mm, the speed of the assembly process is high, and the efficiency is high; meanwhile, due to the use of the profiling pressure head and the wire pressing seat, the assembly quality is guaranteed, and the product is effectively protected from being damaged.

The above description is a preferred embodiment of the present invention, and not intended to limit the scope of the patent claims, and all equivalent structural changes and modifications made by the present specification and drawings are considered to fall within the scope of the present invention.

Claims (7)

1. An assembling mechanism for a split motor stator connecting plate is characterized by comprising a pressing mechanism (1), a pressing head assembly (2), a positioning jig (3) and a carrier lifting mechanism (4); the pressing head assembly (2) is installed on the pressing mechanism, the positioning jig (3) is installed on a large bottom plate (1-1) in the pressing mechanism (1) and right below the pressing head assembly (2), and the carrier lifting mechanism (4) is installed on the back of the large bottom plate (1-1).

2. The assembling mechanism of split motor stator connecting plates according to claim 1, wherein the pressing mechanism (1) comprises a large bottom plate (1-1), a base plate (1-2), shaft supports (1-3), a support shaft (1-4), shaft connecting seats (1-5), a mounting plate (1-6), guide rail bars (1-7), linear guide rails (1-8), linear modules (1-9), servo motors (1-10), connecting plates (1-11), gusset plates (1-12) and fixing plates (1-13); wherein the base plate (1-2) is fixed on the large bottom plate (1-1); the support shaft base (1-3) is fixed on the base plate (1-2), the support shaft (1-4) is installed in the support shaft base (1-3), the shaft connection base (1-5) is installed on the support shaft (1-4), the installation plate (1-6) is installed on the shaft connection base (1-5), the guide rail bar (1-7) is installed on the installation plate (1-6), the linear guide rail (1-8) is installed on the guide rail bar (1-7), the linear module (1-9) is installed on the installation plate (1-6), the servo motor (1-10) is installed on the linear module (1-9), the connection plate (1-11) is installed on the linear guide rail (1-8) and the linear module (1-9), and the gusset plate (1-12) is fixedly connected to the connection plate (1-11) and the fixing plate (1-13).

3. A split motor stator connection plate assembly mechanism as claimed in claim 1, wherein said ram assembly (2) is in the form of a floating structure to absorb 1.5mm gap error for compensating connection plate (1-11) error.

4. The assembling mechanism for split motor stator connecting plates according to claim 3, wherein the pressure head assembly (2) comprises a cylinder fixing plate (2-1), a sliding table cylinder (2-2), a cylinder connecting plate (2-3), a step screw (2-4), a connecting seat (2-5), a spring (2-6), a pressure head (2-7), a wire pressing seat (2-8) and a lower pressing rod (2-9); wherein, the cylinder fixing plate (2-1) is arranged on the fixing plate (1-13) in the pressing mechanism (1), and the pressing rod (2-9) is arranged under the fixing plate (1-13); the sliding table cylinder (2-2) is installed on the cylinder fixing plate (2-1), the cylinder connecting plate (2-3) is installed on the sliding table cylinder (2-2), the connecting seat (2-5) is fixed on the pressure head (2-7) through a step screw (2-4) and a spring (2-6), and the pressure line seat (2-8) is installed below the pressure head (2-7).

5. The assembling mechanism of split motor stator connecting plate according to claim 4, characterized in that the sliding table cylinder (2-2) controls the wire pressing base (2-8) to move, fix and protect the wire ends on the motor stator split, and ensure the assembling quality; the bottom end of the lower pressure rod (2-9) is designed to be an oblique angle, and the lower pressure rod is inserted into a supporting block (4-10) in the carrier lifting mechanism (4) in the process of pressing down so as to enable the supporting block (4-10) to retreat; the pressure head (2-7) is a profiling structure of a connecting plate (1-11) in the pressing mechanism (1).

6. The assembling mechanism of the split motor stator connecting plate according to claim 1, wherein the positioning jig (3) comprises a support column (3-1), a clamp mounting plate (3-2), an air claw cylinder (3-3), a chuck connecting plate (3-4), a positioning seat (3-5), a clamping block (3-6), a fixing block (3-7), a sliding seat (3-8), a linear bearing (3-9) and a sliding rod (3-10); wherein the supporting column (3-1) is arranged on a large bottom plate (1-1) in the pressing mechanism (1); the clamp mounting plate (3-2) is mounted on the support column (3-1), the air claw cylinder (3-3) is mounted on the clamp mounting plate (3-2), the chuck connecting plate (3-4) is mounted on the air claw cylinder (3-3), the positioning seat (3-5) is mounted on the clamp mounting plate (3-2), the clamping block (3-6) is mounted below the chuck connecting plate, the fixing block (3-7) is mounted on the clamp mounting plate (3-2), the sliding seat (3-8) is mounted on the chuck connecting plate (3-4), the linear bearing (3-9) is mounted in the sliding seat (3-8), and the sliding rod (3-10) is mounted on the fixing block (3-7) through the linear bearing (3-9).

7. The assembling mechanism of the split motor stator connecting plate according to claim 1, wherein the carrier lifting mechanism (4) comprises a cylinder (4-1), a cylinder fixing plate (4-2), a fixing shaft (4-3), a jacking plate (4-4), a connecting shaft (4-5), a flange linear bearing (4-6), a supporting sleeve (4-7), a carrier plate (4-8), a pressing plate (4-9), a supporting block (4-10), a bearing (4-11), a No. 1 spring (4-12), a clamping block (4-13), a No. 2 spring (4-14) and a positioning block (4-15); wherein the fixed shaft (4-3) is fixed under the large bottom plate (1-1) in the pressing mechanism (1), and the flange linear bearing (4-6) is arranged on the large bottom plate (1-1); the air cylinder (4-1) is arranged on an air cylinder fixing plate (4-2), the air cylinder fixing plate (4-2) is arranged on a fixing shaft (4-3), the jacking plate (4-4) is arranged on a connecting shaft (4-5), a flange linear bearing (4-6) and a supporting sleeve (4-7) are arranged on the connecting shaft (4-5) in a sliding mode, a carrier plate (4-8) is arranged on the connecting shaft (4-5), a supporting block (4-10) is arranged on a carrier plate (4-8), a bearing (4-11) is arranged in a supporting block (4-10), a No. 1 spring (4-12) is arranged at the rear end of the supporting block (4-10), a clamping block (4-13) is arranged on the carrier plate (4-8), a No. 2 spring (4-14) is arranged at the rear end of the clamping block (4-13), the positioning blocks (4-15) are arranged on the carrier plates (4-8), and the pressure plates (4-9) are arranged on the carrier plates (4-8).

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