CN211709760U - Flexible-operation mixing equipment for silicon rubber - Google Patents

Abstract

The utility model relates to a flexible operation's mixing equipment for silicon rubber, which comprises a frame, first roller and the second roller parallel with first roller, the second roller rotates with the frame to be connected, be provided with in the frame and be used for driving first roller pivoted first driving motor, a promotion subassembly that is used for fixed first driving motor's bearing board and is used for promoting the bearing board, bearing board and frame sliding connection, the removal of bearing board drives first driving motor's removal, be provided with the support frame that has limiting displacement's baffle and is used for installing the baffle to rubber in the frame, the quantity of baffle is more than or equal to two, the storage tank has been seted up to the low side of baffle, the inside of storage tank is provided with the fixture block and is used for promoting the spring of fixture block, the fixture block butt is in first roller. By adjusting the distance between the first roller and the second roller, a user can process the rubber raw material at various roller pitches. The utility model discloses have the effect that improves the flexibility of operation.

Description

Flexible-operation mixing equipment for silicon rubber

Technical Field

The utility model belongs to the technical field of the technique of mill and specifically relates to a mixing equipment for silicon rubber of flexible operation is related to.

Background

The sealing gasket is a sealing spare part used in places where fluid exists, such as machinery, equipment and pipelines, wherein the rubber gasket has the performances of oil resistance, acid and alkali resistance, cold and heat resistance, aging resistance and the like, and is widely applied to the industries of automobiles, electronics, chemical engineering, static resistance, flame retardance, food and the like. In the production process of rubber processing, mixing is a process of mixing raw rubber or plasticated raw rubber and an accessory ingredient into mixed rubber by a rubber mixing mill, and is the most important production process for rubber processing. Essentially, the process of uniformly dispersing the compounding agent in the raw rubber is realized, the granular compounding agent is in a dispersed phase, and the raw rubber is in a continuous phase.

In the prior art, the Chinese utility model with the publication number of CN209175954U discloses a rubber open mill, which is provided with a main roller and an auxiliary roller, wherein the two rollers respectively rotate relatively at different speeds, and raw rubber or rubber material is rolled into a gap between the two rollers along with the rotation of the rollers and is subjected to strong shearing action to achieve the purpose of mixing. And a glue scraping component is arranged below the main roller and the auxiliary roller, and can realize intermittent motion glue scraping on the main roller and the auxiliary roller.

The above patent is stable in structure and convenient to operate, but has certain defects. If in this patent through driving motor and chain sprocket mechanism drive main roller rotation, be provided with the driving gear on the main roller, the rotation of assistance roller is through driven gear drive, thereby make driven gear and driving gear must mesh, lead to the user can not adjust the distance between main roller and the assistance roller in a flexible way, the clearance between two rollers is unchangeable, raw rubber can only go on under the same kind of roll spacing when mixing, make the user can not go out the finished product of multiple thickness through this equipment mixing, the flexibility of operation has been reduced.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a flexible operation's mixing equipment for silicon rubber, its characteristics that have promotion operation flexibility.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a flexible-operation mixing device for silicon rubber comprises a frame, a first roller and a second roller parallel to the first roller, the second roller is rotationally connected with the frame, the frame is provided with a first driving motor for driving the first roller to rotate, a bearing plate for fixing the first driving motor and a pushing assembly for pushing the bearing plate, the bearing plate is connected with the frame in a sliding way, the movement of the bearing plate drives the first driving motor to move, the frame is provided with a baffle plate which has a limiting effect on rubber and a supporting frame for mounting the baffle plate, the number of the baffles is greater than or equal to two, a containing groove is formed in the lower end of each baffle, a clamping block and a spring used for pushing the clamping block are arranged in the containing groove, and the clamping block abuts against the first roller.

Through adopting above-mentioned technical scheme, the user can place rubber materials on the clearance between first roller and the second roller, and two baffles butt in rubber materials's both sides, has the effect of location to rubber materials. After a user starts the first driving motor, the first roller rotates, and rubber raw materials enter a gap between the first roller and the second roller to be mixed. The user accessible promotes the subassembly and changes the distance between first roller and the second roller, and no matter first roller moves in order to be close to or keep away from the direction of second roller, baffle accessible fixture block butt all the time in first roller. Through adjusting the distance between first roller and the second roller, the user can make rubber raw materials process under multiple roll spacing, has improved the flexibility of this equipment operation.

Preferably, the pushing assembly comprises a driving block for driving the supporting plate to move, a screw rod for driving the driving block to move and a fixing block for fixing the screw rod, the number of the fixing blocks is greater than or equal to two, the fixing blocks are rotatably connected with the screw rod, the fixing blocks are fixedly connected with the rack, the driving block is in threaded connection with the screw rod, and the screw rod is provided with a turntable for a user to apply force.

Through adopting above-mentioned technical scheme, user's accessible carousel makes the lead screw rotate to the lead screw application of force, because lead screw and drive block threaded connection, along with the lead screw is rotatory, the drive block can drive the bearing piece along the lead screw and remove to order about first driving motor and first roller and remove.

Preferably, the number of the supporting plates is two, one end, far away from the first driving motor, of the first roller is rotatably connected with a first supporting rod, the first supporting rod is fixedly connected with one of the supporting plates, the number of the pushing assemblies is two, and the two groups of the pushing assemblies are respectively connected with the two supporting plates.

Through adopting above-mentioned technical scheme, when the user adjusted first roller, need promote first roller simultaneously through two sets of promotion subassemblies, prevent that the first roller from removing the distance between both ends and the second roller and appearing the deviation, cause the roller unbalance loading to improve equipment's life. On the other hand, the first roller is more stable and is not easy to move in the mixing process.

Preferably, the bottom of the bearing plate is rotatably connected with rollers, the number of the rollers on each bearing plate is more than or equal to three, and the rollers are in rolling connection with the rack.

Through adopting above-mentioned technical scheme, reduce the frictional force between bearing board and the frame when bearing board removes, it is more laborsaving when making the user adjust first roller.

Preferably, the fixture block is provided with a relief portion for accommodating the first roller.

Through adopting above-mentioned technical scheme, can increase the area of contact between fixture block and the first roller, reduce the clearance between fixture block and the first roller, prevent that rubber materials from pressing into in the clearance between fixture block and the first roller in the roll extrusion process.

Preferably, the inner side of the accommodating groove is provided with a limiting part, the fixture block is provided with a limiting groove for accommodating the limiting part, and the limiting groove is connected with the limiting part in a sliding manner.

Through adopting above-mentioned technical scheme, when the fixture block removed, locating part and spacing groove relative slip prevented to break away from the storage tank when the locating part removed.

Preferably, the locating part sets up with the horizontal direction, the one end of locating part with the storage tank is kept away from the cell wall fixed connection of first roller, the other end of locating part is in order to keep away from first roller extends to the direction that is close to first roller, the spring wrap up in locating part week side, the both ends of spring respectively the butt in the cell wall of storage tank with one side of fixture block.

Through adopting above-mentioned technical scheme, the spring parcel is in the week side of locating part, makes the locating part have the supporting role to the spring, prevents that the spring from bending.

Preferably, the top of baffle be provided with be used for with support frame sliding connection's connecting cylinder, the top of connecting cylinder is seted up the intercommunication the inside screw hole of connecting cylinder, the inside threaded connection of screw hole has the locating lever, the bottom butt of locating lever in the support frame, the top of locating lever is provided with the handle.

By adopting the technical scheme, when a user needs to adjust the distance between the two baffles, the handle can drive the positioning rod to rotate, so that the positioning rod is separated from the support frame, the baffles can move on the support frame, the distance between the two baffles can be adjusted, then the positioning rod can be rotated in the opposite direction, the positioning rod is abutted against the support frame, and the baffles and the support frame are relatively fixed. The user can adjust the distance between the two baffles more conveniently and laborsavingly, so that the rubber raw materials can be mixed into finished products with various widths.

Preferably, the support frame is including being used for supporting the connecting rod of connecting cylinder and being used for fixing the fixed column of connecting rod, the fixed column with frame fixed connection, the one end of connecting cylinder with the fixture block is close the one side parallel and level of rubber, be provided with the scale on the connecting rod.

Through adopting above-mentioned technical scheme, the user is when adjusting two baffles, and the distance between two baffles is judged to accessible connecting cylinder and scale, and the person of facilitating the use adjusts the baffle.

To sum up, the utility model discloses a beneficial technological effect does:

1. the utility model can process the rubber raw material under various roll distances, thereby improving the flexibility of the operation of the equipment;

2. the utility model prevents the eccentric loading of the roller and prolongs the service life of the equipment;

3. the utility model discloses it is more laborsaving to make the user adjust first roller.

Drawings

FIG. 1 is a schematic view showing the construction of a kneading apparatus for silicone rubber which is flexible in operation.

FIG. 2 is a schematic view showing the structure of a kneading apparatus for silicone rubber which is flexible in operation.

Fig. 3 is an exploded schematic view of the pusher assembly.

Fig. 4 is a schematic structural view of the baffle.

Fig. 5 is an exploded schematic view of the baffle.

In the figure, 1, a frame; 11. a collection tray; 2. a first roller; 21. a first rotating shaft; 22. a first support bar; 221. a first communication hole; 3. a second roller; 31. a second rotating shaft; 32. a second support bar; 321. a second communication hole; 4. a first drive motor; 5. a second drive motor; 51. a base plate; 6. a support plate; 61. a rotating groove; 62. a roller; 7. a pushing assembly; 71. a drive block; 711. a thread groove; 72. a screw rod; 721. a clamping column; 73. a fixed block; 731. mounting holes; 74. a turntable; 741. mounting a column; 8. a support frame; 81. a connecting rod; 811. calibration; 82. fixing a column; 9. a baffle plate; 91. a connecting cylinder; 911. a threaded hole; 92. a containing groove; 921. a limiting member; 922. a spring; 93. a clamping block; 931. a relief portion; 932. a limiting groove; 934. an organ cover; 94. positioning a rod; 95. a bonding part.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and fig. 2, for the utility model discloses a flexible operation's mixing equipment for silicon rubber, including frame 1, frame 1 is last to be provided with catch tray 11, first roller 2, second roller 3, first driving motor 4, second driving motor 5, bearing board 6, promotion subassembly 7, support frame 8 and baffle 9. The axes of the first roller 2 and the second roller 3 are in the same horizontal plane and parallel to each other.

The first driving motor 4 drives the first roller 2 to rotate, and the second driving motor 5 drives the first roller 2 to rotate, so that the rubber raw materials entering between the first roller 2 and the second roller 3 are mixed. The user can also move the first roller 2 through the pushing assembly 7, and adjust the distance between the first roller 2 and the second roller 3, so that the rubber raw materials can be mixed into finished products with various thicknesses.

The cross section of the rack 1 is U-shaped, the lower surface of the collecting tray 11 is abutted to the upper surface of the middle part of the rack 1, so that the collecting tray 11 is placed below the first roller 2 and the second roller 3, and finished products processed between the first roller 2 and the second roller 3 can fall into the collecting tray 11.

The middle parts of the two ends of the second roller 3 are respectively welded with a second rotating shaft 31, the second driving motor 5 is positioned at one end of the second roller 3, the lower surface of the second driving motor 5 is bolted with a backing plate 51, and the upper surface of the backing plate 51 is flush with the upper surface of the bearing plate 6. The lower surface of the backing plate 51 is bolted to the upper surface of the frame 1, and the driving shaft of the second driving motor 5 is in key connection with the second rotating shaft 31.

The end of the second roller 3 remote from the second drive motor 5 is provided with a second strut 32. The second connecting hole 321 is opened at the upper part of the second support rod 32, and the second connecting hole 321 penetrates through the second support rod 32.

One end of the second rotating shaft 31, which is far away from the second driving motor 5, is inserted into the second communicating hole 321 to be rotatably connected with the second supporting rod 32, and the bottom end of the second supporting rod 32 is bolted to the upper surface of the frame 1, so that the second roller 3 is rotatably connected with the frame 1.

The cross section of the bearing plate 6 is rectangular, the number of the bearing plates 6 is two, and the two bearing plates 6 are respectively positioned at the two ends of the first roller 2.

The middle parts of the two ends of the first roller 2 are respectively welded with a first rotating shaft 21, the first driving motor 4 is positioned at one end of the first roller 2, the first driving motor 4 is bolted on the upper surface of one bearing plate 6, and the driving shaft of the first driving motor 4 is in key connection with the first rotating shaft 21.

The end of the first roller 2 remote from the first drive motor 4 is provided with a first strut 22. The upper portion of the first rod 22 is provided with a first through hole 221, and the first through hole 221 penetrates through the first rod 22.

One end of the first rotating shaft 21, which is far away from the first driving motor 4, penetrates through the first through hole 221 and is rotatably connected with the first supporting rod 22, and the bottom end of the first supporting rod 22 is bolted with the upper surface of the other supporting plate 6, so that the first roller 2 is rotatably connected with the two supporting plates 6 respectively.

Referring to fig. 2 and 3, four rotation grooves 61 are formed in the lower surface of each support plate 6, and the four rotation grooves 61 are located at four corners of the support plate 6. The cross section of the rotating groove 61 is arc-shaped, a roller 62 is arranged inside each rotating groove 61, the roller 62 is rotatably connected with the groove wall of the rotating groove 61 through rotation, and the moving path of the roller 62 is perpendicular to the axial direction of the first roller 2.

Because the first driving motor 4 and the first supporting rod 22 are respectively fixedly connected with the two supporting plates 6, when the supporting plates 6 move, the first roller 2 can be driven to move.

The number of the pushing assemblies 7 is two, and the two groups of pushing assemblies 7 are respectively positioned on one sides of the two bearing plates 6 far away from the first roller 2. Each group of pushing assemblies 7 comprises a driving block 71, a screw 72 and two fixed blocks 73.

The two ends of the screw rod 72 are respectively welded with a clamping column 721, the axis of the clamping column 721 and the axis of the screw rod 72 are positioned on the same straight line, and the diameter of the clamping column 721 is smaller than that of the screw rod 72. The upper portion of fixed block 73 has seted up mounting hole 731, and mounting hole 731 link up fixed block 73, and the internal diameter of mounting hole 731 is unanimous with the diameter of joint post 721.

The two clamping posts 721 are respectively inserted into the two mounting holes 731, so that the two ends of the screw rod 72 are respectively attached to the fixing blocks 73, and the screw rod 72 is clamped between the two fixing blocks 73. The lower surface of the fixed block 73 is welded with the upper surface of the frame 1, so that the screw 72 is rotatably connected with the frame 1 through the fixed block 73.

One end of the screw rod 72 close to the first roller 2 is provided with a rotating disc 74, and the middle part of one side of the rotating disc 74 close to the screw rod 72 is welded with a mounting column 741. The clamping column 721 at one end of the screw 72 close to the mounting column 741 penetrates through the fixing block 73 and is welded with the mounting column 741, so that the turntable 74 is fixedly connected with the screw 72.

The middle part of the driving block 71 is provided with a thread groove 711, the thread groove 711 is matched with the screw rod 72, and the thread groove 711 penetrates through the driving block 71. The driving block 71 is located at the middle of the screw rod 72 and is screw-coupled with the screw rod 72 through a screw groove 711. The lower surface of the drive block 71 is welded to the upper surface of the support plate 6.

The user can rotate the two lead screws 72 by applying force to the two lead screws 72 through the two turntables 74. Because the screw rod 72 is in threaded connection with the driving block 71, the two driving blocks 71 can respectively drive the two bearing blocks to move along the screw rod 72 along with the rotation of the screw rod 72, so as to drive the first driving motor 4 and the first roller 2 to move. On the other hand, the two ends of the first roller 2 can move simultaneously due to the arrangement of the two screw rods 72, and the phenomenon that the distance between the two ends of the first roller 2 and the second roller 3 deviates after the first roller 2 moves to cause the eccentric loading of the rollers is prevented.

The number of the baffle plates 9 is two, the two baffle plates 9 are arranged on the supporting frame 8, and the two baffle plates 9 are positioned right above the gap between the first roller 2 and the second roller 3.

Referring to fig. 4 and 5, the supporting frame 8 includes a connecting rod 81 and two fixing posts 82. The axis of the connecting rod 81 is parallel to the axis of the first roller 2, two ends of the connecting rod 81 are bolted with the two fixing columns 82 respectively, and the lower surfaces of the fixing columns 82 are bolted with the upper surface of the rack 1, so that the connecting rod 81 is fixedly connected with the rack 1.

The top welding of baffle 9 has connecting cylinder 91, and connecting cylinder 91 and connecting rod 81 phase-match, and the week side of connecting rod 81 is located to connecting cylinder 91 cover, makes baffle 9 pass through connecting cylinder 91 and connecting rod 81 sliding connection.

The baffle 9 is provided with a containing groove 92 at the lower part of one side close to the first roller 2, and the containing groove 92 is communicated with the lower surface of the baffle 9, so that the baffle 9 is in an inverted L shape as a whole. A latch 93 is provided inside the receiving groove 92.

Both ends of the connecting cylinder 91 are flush with both sides of the latch 93, respectively. The circumference of the connecting rod 81 is provided with a scale 811. The user can judge the distance between the two baffles 9 through the connecting cylinder 91 and the scales 811, so that the user can adjust the baffles 9 conveniently.

The middle part of the upper surface of the connecting cylinder 91 is provided with a threaded hole 911, and the threaded hole 911 is communicated with the inside of the connecting cylinder 91. A positioning rod 94 is arranged inside the threaded hole 911, and threads matched with the threaded hole 911 are formed on the periphery of the positioning rod 94, so that the lower portion of the positioning rod 94 is in threaded connection with the threaded hole 911.

The lower surface of the positioning rod 94 abuts on the circumferential side of the tie bar 81, and the connecting cylinder 91 and the tie bar 81 are fixed to each other by a frictional force with the tie bar 81. A handle is bolted to the upper portion of the positioning rod 94, and the handle is disposed in a direction perpendicular to the positioning rod 94, so that the handle and the positioning rod 94 are formed in an inverted L shape as a whole.

When a user needs to adjust the distance between the two baffles 9, the handle can drive the positioning rod 94 to rotate, so that the positioning rod 94 is separated from the connecting rod 81, and then the baffles 9 move along the connecting rod 81. After the distance between the two baffles 9 is adjusted, the positioning rod 94 can be rotated in the opposite direction to make the positioning rod 94 abut against the connecting rod 81, so that the baffles 9 and the connecting rod 81 are relatively fixed. The user can adjust the distance between the two baffle plates 9 more conveniently and laborsavingly, so that the rubber raw materials can be mixed into finished products with various widths.

The baffle 9 is close to one side lower part of second roller 3 and has been seted up laminating portion 95, and laminating portion 95 and second roller 3 phase-match, second roller 3 laminating in laminating portion 95. One side of the latch 93 close to the first roller 2 is provided with a position-giving portion 931, the position-giving portion 931 matches with the first roller 2, and the first roller 2 abuts against the position-giving portion 931.

Two limiting grooves 932 are formed in one side, away from the first roller 2, of the fixture block 93, the limiting grooves 932 are arranged in the horizontal direction, the cross section of each limiting groove 932 is circular, and the two limiting grooves 932 are located on the upper portion of the fixture block 93. The limiting piece 921 has been placed to the inside of spacing groove 932, and limiting piece 921 and spacing groove 932 phase-match, the one end that the fixture block 93 was kept away from to the limiting piece 921 and the cell wall welding of storage tank 92 to make fixture block 93 pass through limiting piece 921 and baffle 9 sliding connection.

The surface of the limiting piece 921 is wrapped with a spring 922. One end of the spring 922 abuts against the wall of the receiving groove 92, and the other end abuts against the latch 93. Under the thrust action of the spring 922, the latch 93 is still abutted to the first roller 2 when the first roller 2 moves. An organ cover 934 is adhered between two sides of the clamping block 93 and the accommodating groove 92, and the organ cover 934 can be expanded or contracted along with the movement of the baffle 9. Rubber stock is prevented from contacting spring 922.

The implementation principle of the embodiment is as follows: the user can place rubber materials on the clearance between first roller 2 and the second roller 3, and two baffles 9 butt in rubber materials's both sides, has the effect of location to rubber materials. After a user starts the first driving motor 4, the first roller 2 rotates, and the rubber raw material enters a gap between the first roller 2 and the second roller 3 to be mixed. The user accessible promotes subassembly 7 and changes the distance between first roller 2 and the second roller 3, and no matter first roller 2 moves with the direction of being close to or keeping away from the second roller 3, baffle 9 accessible fixture block 93 is the butt in first roller 2 all the time. Through adjusting the distance between the first roller 2 and the second roller 3, the user can process the rubber raw material under various roller distances, and the flexibility of the operation of the equipment is improved.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The utility model provides a flexible operation's mixing equipment for silicon rubber, includes frame (1), first roller (2) and with second roller (3) that first roller (2) are parallel, second roller (3) with frame (1) rotates and is connected its characterized in that: the frame (1) is provided with a first driving motor (4) for driving the first roller (2) to rotate, a bearing plate (6) for fixing the first driving motor (4) and a pushing assembly (7) for pushing the bearing plate (6), the bearing plate (6) is connected with the frame (1) in a sliding way, the movement of the bearing plate (6) drives the first driving motor (4) to move, a baffle plate (9) with a limiting effect on rubber and a supporting frame (8) for mounting the baffle plate (9) are arranged on the frame (1), the number of the baffle plates (9) is more than or equal to two, the lower end of each baffle plate (9) is provided with a containing groove (92), a clamping block (93) and a spring (922) used for pushing the clamping block (93) are arranged in the accommodating groove (92), and the clamping block (93) abuts against the first roller (2).

2. The flexible-operation mixing apparatus for silicone rubber according to claim 1, characterized in that: the pushing assembly (7) comprises a driving block (71) used for driving the supporting plate (6) to move, a screw rod (72) used for driving the driving block (71) to move and a fixing block (73) used for fixing the screw rod (72), the number of the fixing block (73) is larger than or equal to two, the fixing block (73) is connected with the screw rod (72) in a rotating mode, the fixing block (73) is fixedly connected with the rack (1), the driving block (71) is connected with the screw rod (72) in a threaded mode, and the screw rod (72) is provided with a rotating disc (74) for force application of a user.

3. The flexible-operation mixing apparatus for silicone rubber according to claim 2, characterized in that: the number of bearing plate (6) is two, first roller (2) are kept away from the one end of first driving motor (4) is rotated and is connected with first branch (22), first branch (22) and one of them bearing plate (6) fixed connection, the number that promotes subassembly (7) is two, two sets it is respectively with two to promote subassembly (7) bearing plate (6) are connected.

4. The flexible-operation mixing apparatus for silicone rubber according to claim 3, characterized in that: the bottom of the bearing plate (6) is rotatably connected with rollers (62), the number of the rollers (62) on each bearing plate (6) is more than or equal to three, and the rollers (62) are in rolling connection with the rack (1).

5. The flexible-operation mixing apparatus for silicone rubber according to claim 1, characterized in that: the fixture block (93) is provided with a yielding part (931) for containing the first roller (2).

6. The flexible-operation mixing apparatus for silicone rubber according to claim 5, characterized in that: the inboard of storage tank (92) is provided with locating part (921), fixture block (93) are seted up and are used for holding spacing groove (932) of locating part (921), spacing groove (932) with locating part (921) sliding connection.

7. The flexible-operation mixing apparatus for silicone rubber according to claim 6, characterized in that: the locating part (921) sets up with the horizontal direction, the one end of locating part (921) with storage tank (92) is kept away from the cell wall fixed connection of first roller (2), the other end of locating part (921) is in order to keep away from first roller (2) is to being close the direction of first roller (2) extends, spring (922) wrap up in locating part (921) week side, the both ends of spring (922) respectively the butt in the cell wall of storage tank (92) with one side of fixture block (93).

8. The flexible-operation mixing apparatus for silicone rubber according to claim 7, characterized in that: the top of baffle (9) be provided with be used for with support frame (8) sliding connection's connecting cylinder (91), the intercommunication has been seted up on the top of connecting cylinder (91) screw hole (911) inside connecting cylinder (91), the inside threaded connection of screw hole (911) has locating lever (94), the bottom butt of locating lever (94) in support frame (8), the top of locating lever (94) is provided with the handle.

9. The flexible-operation mixing apparatus for silicone rubber according to claim 8, characterized in that: support frame (8) are including being used for supporting connecting rod (81) of connecting cylinder (91) and being used for fixing fixed column (82) of connecting rod (81), fixed column (82) with frame (1) fixed connection, the one end of connecting cylinder (91) with fixture block (93) are close the one side parallel and level of rubber, be provided with scale (811) on connecting rod (81).

Images