CN108455621A - A kind of zirconium silicate production and processing technology for Production of Ceramics - Google Patents

Abstract

The present invention relates to technical field of ceramic preparation, specifically a kind of zirconium silicate production and processing technology for Production of Ceramics, which includes the following steps：Mined zircon is removed impurity by S1 through wet concentration, electric separation, magnetic separation；Zircon is put into powder former and is milled, sieved and collected by S2, and zircon becomes powdered zirconium silicate；S3, will collect obtained zirconium silicate and be put into drying equipment processing is dried；Zirconium silicate after drying is encapsulated and is preserved by S4.The powder former that this technique uses cooperates to realize milling for raw material with cylinder of milling using semicircular filter plate, the raw material for reaching requirement to run through filter plate and enter in material collecting box to be collected, so that milling, sieving, collection process integration, it is processed without multiple flows, is greatly improved the production efficiency of zirconium silicate.

Description

A kind of zirconium silicate production and processing technology for Production of Ceramics

Technical field

The present invention relates to technical field of ceramic preparation, specifically a kind of zirconium silicate for Production of Ceramics produces and processes Technique.

Background technology

Zirconium silicate is a kind of high-quality, inexpensive opacifiers, is widely used in various architectural potteries, sanitary ceramics, daily pottery In the production of porcelain, level-one craftwork ceramics etc., why zirconium silicate is able to extensive use in Production of Ceramics, also as it is chemical Stability is good, because without being influenced by ceramic firing atmosphere, and can significantly improve the glaze-body bonding performance of ceramics, improve ceramic glaze Surface hardness.

During ceramic making, need that zirconium silicate is carried out to grind processing, it is inadequate that current process equipment grinds effect It is good, it needs to be processed operation using multiple processes, operation is cumbersome；Loading and unloading are cumbersome.In consideration of it, the present invention provides A kind of zirconium silicate production and processing technology for Production of Ceramics, has the characteristics that：

(1) this technique use powder former, using semicircular filter plate and mill cylinder cooperate to realize for Raw material is milled so that filter plate can be run through and enter in material collecting box and be collected by reaching the raw material of requirement so that mill, Process integration is collected in screening, is processed without multiple flows.

(2) powder former that this technique uses, displacement can be realized by the mutual cooperation of driving mechanism, transmission mechanism The reciprocating motion of mechanism, and drive the first idler wheel along adjusting block inclined-plane move up and down so that filter plate and mill cylinder it Between gap constantly become larger, reduce so that the raw material of bulky grain can be rolled to bottom and be milled again；Raising is milled effect Fruit.

(3) powder former that this technique uses, when glove mechanism kinematic to lowermost end, plugging plate can move to out The bottom of material mouth so that raw material can be automatically drained out to filter plate, realize automatic charging, and when glove mechanism moves upwards When, plugging plate can block discharge port, without human intervention.

Invention content

For the problems of the prior art, the present invention provides a kind of zirconium silicates for Production of Ceramics to produce and process work Skill cooperates to using semicircular filter plate with cylinder of milling realize milling for raw material so that reach the raw material energy of requirement It enough runs through filter plate and enters in material collecting box and be collected so that mill, sieve, collection process integration, being not necessarily to multiple streams Cheng Jiagong；The reciprocating motion of displacement mechanism can be realized by the mutual cooperation of driving mechanism, transmission mechanism, and drives the first rolling Wheel moves up and down along the inclined-plane of adjusting block, so that the gap between filter plate and cylinder of milling constantly becomes larger, reduces so that The raw material of bulky grain can be rolled to bottom and be milled again；Improve milling efficiency；When glove mechanism kinematic to lowermost end, Plugging plate can move to the bottom of discharge port so that raw material can be automatically drained out to filter plate, realize automatic charging, and work as When glove mechanism moves upwards, plugging plate can block discharge port, without human intervention.

The technical solution adopted by the present invention to solve the technical problems is：A kind of zirconium silicate production for Production of Ceramics adds Work technique, the production and processing method include the following steps：

Mined zircon is removed impurity by S1 through wet concentration, electric separation, magnetic separation；

The zircon obtained in S1 is put into powder former and is milled, sieved and collected by S2, and zircon becomes powder The zirconium silicate of last shape；

The zirconium silicate collected in S2 is put into drying equipment and processing is dried by S3；

Zirconium silicate in S3 after drying is encapsulated and is preserved by S4；

The powder former used in the technique includes displacement mechanism, milling mechanism, glove mechanism, feeding machanism, driving Case, driving mechanism, transmission mechanism and bindiny mechanism；Institute's displacement mechanism is fixedly connected with the transmission mechanism, the driver The structure mating connection driving mechanism, the transmission mechanism, the driving mechanism collective effect realize the fortune of institute's displacement mechanism It is dynamic；The transmission mechanism, the driving mechanism are set to the inside of the driving box；The top installation of institute's displacement mechanism is Glove mechanism is stated, the glove mechanism is to raw material progress support and screening；The top of the glove mechanism is equipped with the stone roller Grinding machine structure, the milling mechanism is pulverizing raw material；The milling mechanism connects the glove machine by the bindiny mechanism Structure, the bindiny mechanism is limiting the glove mechanism；Gap between the glove mechanism, the milling mechanism Top is equipped with the feeding machanism, and the feeding machanism is raw material to be expelled in the glove mechanism.

Specifically, the driving mechanism includes driving motor and cam, the driving motor is set to the interior of the driving box Wall, the driving motor are rotatablely connected the cam；In order to realize the driving for displacement mechanism.

Specifically, the transmission mechanism includes drive link, the second idler wheel, position-limiting tube and spring, second idler wheel with The outer wall of the cam is bonded to each other, and the drive link is through the position-limiting tube, the driving box, the outer wall of the drive link Equipped with pressing plate, the pressing plate is set to the inside of the position-limiting tube, and the inner wall of the position-limiting tube is fixedly connected with one end of the spring, The other end of the spring is fixedly connected with the pressing plate；In order to realize the reciprocating motion of displacement mechanism.

Specifically, institute's displacement mechanism includes sliding rail and adjusting block, the end of the side wall of the adjusting block and the drive link Portion is fixedly connected, and is slidably connected between the adjusting block and the sliding rail, and the section that the adjusting block is is right angled triangle；For Glove mechanism 3 is moved up and down, to change glove gap so that bulky grain raw material energy stock is milled repeatedly.

Specifically, the glove mechanism includes the first idler wheel, material collecting box, support plate, filter plate, strut and plugging plate, institute It states and is bonded to each other at the first idler wheel and the inclined-plane of the adjusting block, first idler wheel is installed on the bottom of the material collecting box, institute The two side for stating material collecting box is vertically equipped with the support plate, and the top of the material collecting box is equipped with the filter plate of arc surfaced, described The lateral section of filter plate is semicircle shape, and the filter plate is fixedly connected with the inner wall of the support plate, the top inner wall point of the filter plate It is furnished with hairbrush, the top surface midline of the support plate is vertically equipped with the strut, and the top of the strut is equipped with the plugging plate, The plugging plate is skewed；In order to realize that raw material discharges while milling, milling efficiency is good, and discharging speed is fast, and also The raw material of adherency can be wiped off.

Specifically, the milling mechanism includes mill cylinder, rotary electric machine and holder, the cylinder interval of milling is placed in described The center of circle of the inside of filter plate, mill cylinder and the filter plate is located at same point, and the end of the cylinder of milling is rotatablely connected Rotary electric machine is stated, the rotary electric machine is fixedly connected with the holder；In order to mill to raw material.

Specifically, the feeding machanism includes material box, lower hopper, tremie pipe and pillar, the inside of the tremie pipe Equipped with the plugging plate, the side wall of the tremie pipe is provided with discharge port, the discharge port be located at the filter plate, it is described mill cylinder it Between gap top, the top of the tremie pipe is equipped with the skewed lower hopper, and the side connection of the lower hopper is State material box；In order to realize automatic blanking or the closing of raw material.

Specifically, the bindiny mechanism includes position-limited box and connecting rod, the inside of the position-limited box is socketed with the support plate, The sidewall symmetry of the position-limited box is equipped with the connecting rod, and the connecting rod is fixedly connected with the support plate；In order to enable glove machine The movement of structure is more stable.

Beneficial effects of the present invention：

(1) this technique use powder former, using semicircular filter plate and mill cylinder cooperate to realize for Raw material is milled so that filter plate can be run through and enter in material collecting box and be collected by reaching the raw material of requirement so that mill, Process integration is collected in screening, is processed without multiple flows.

(2) powder former that this technique uses, displacement can be realized by the mutual cooperation of driving mechanism, transmission mechanism The reciprocating motion of mechanism, and drive the first idler wheel along adjusting block inclined-plane move up and down so that filter plate and mill cylinder it Between gap constantly become larger, reduce so that the raw material of bulky grain can be rolled to bottom and be milled again；Raising is milled effect Fruit.

(3) powder former that this technique uses, when glove mechanism kinematic to lowermost end, plugging plate can move to out The bottom of material mouth so that raw material can be automatically drained out to filter plate, realize automatic charging, and when glove mechanism moves upwards When, plugging plate can block discharge port, without human intervention.

Description of the drawings

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the structural schematic diagram for the powder former that this technique uses；

Fig. 2 is glove mechanism shown in FIG. 1 and feeding machanism attachment structure schematic diagram；

Fig. 3 is enlarged structure schematic diagram at A shown in FIG. 1；

Fig. 4 is driving box internal structure schematic diagram shown in FIG. 1；

Fig. 5 is transmission mechanism structural schematic diagram shown in Fig. 4；

Fig. 6 is bindiny mechanism's structural schematic diagram shown in FIG. 1.

In figure：1, displacement mechanism, 11, sliding rail, 12, adjusting block, 2, milling mechanism, 21, cylinder of milling, 22, rotary electric machine, 23, holder, 3, glove mechanism, the 31, first idler wheel, 32, material collecting box, 33, support plate, 34, filter plate, 341, hairbrush, 35, strut, 36, plugging plate, 4, feeding machanism, 41, material box, 42, lower hopper, 43, tremie pipe, 431, discharge port, 44, pillar, 5, driving Case, 6, driving mechanism, 61, driving motor, 62, cam, 7, transmission mechanism, 71, drive link, 711, pressing plate, the 72, second idler wheel, 73, position-limiting tube, 74, spring, 8, bindiny mechanism, 81, position-limited box, 82, connecting rod.

Specific implementation mode

In order to make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, tie below Specific implementation mode is closed, the present invention is further explained.

As shown in figs 1 to 6, a kind of zirconium silicate production and processing technology for Production of Ceramics of the present invention, the production Processing method includes the following steps：

Mined zircon is removed impurity by S1 through wet concentration, electric separation, magnetic separation；

The zircon obtained in S1 is put into powder former and is milled, sieved and collected by S2, and zircon becomes powder The zirconium silicate of last shape；

The zirconium silicate collected in S2 is put into drying equipment and processing is dried by S3；

Zirconium silicate in S3 after drying is encapsulated and is preserved by S4；

The powder former used in the technique include displacement mechanism 1, milling mechanism 2, glove mechanism 3, feeding machanism 4, Driving box 5, driving mechanism 6, transmission mechanism 7 and bindiny mechanism 8；Institute's displacement mechanism 1 is fixedly connected with the transmission mechanism 7, The transmission mechanism 7 is connected the driving mechanism 6, and the transmission mechanism 7,6 collective effect of the driving mechanism realize institute The movement of displacement mechanism 1；The transmission mechanism 7, the driving mechanism 6 are set to the inside of the driving box 5；The displacement The top of mechanism 1 is equipped with the glove mechanism 3, and the glove mechanism 3 is to raw material progress support and screening；The glove The top of mechanism 3 is equipped with the milling mechanism 2, and the milling mechanism 2 is pulverizing raw material；The milling mechanism 2 passes through institute It states bindiny mechanism 8 and connects the glove mechanism 3, the bindiny mechanism 8 is limiting the glove mechanism 3；It is described to set The feeding machanism 4 is installed, the feeding machanism 4 is to will be former between object mechanism 3, the milling mechanism 2 at the top of gap Material is expelled in the glove mechanism 3.

Specifically, as shown in figure 4, the driving mechanism 6 includes driving motor 61 and cam 62, the driving motor 61 is set In the inner wall of the driving box 5, the driving motor 61 is rotatablely connected the cam 62；In order to realize for displacement mechanism 1 Driving.

Specifically, as shown in figure 4, the transmission mechanism 7 includes drive link 71, the second idler wheel 72, position-limiting tube 73 and bullet Spring 74, second idler wheel 72 and the outer wall of the cam 62 are bonded to each other, the drive link 71 through the position-limiting tube 73, The outer wall of the driving box 5, the drive link 71 is equipped with pressing plate 711, and the pressing plate 711 is set to the inside of the position-limiting tube 73, The inner wall of the position-limiting tube 73 is fixedly connected with one end of the spring 74, and the other end of the spring 74 is solid with the pressing plate 711 Fixed connection；In order to realize the reciprocating motion of displacement mechanism 1.

Specifically, as shown in Figure 1, institute's displacement mechanism 1 includes sliding rail 11 and adjusting block 12, the side wall of the adjusting block 12 It is fixedly connected with the end of the drive link 71, is slidably connected between the adjusting block 12 and the sliding rail 11, the adjusting block 12 sections for being are right angled triangle；In order to enable glove mechanism 3 can move up and down, to change glove gap so that big Particulate material energy stock is milled repeatedly.

Specifically, as shown in figures 1 and 3, the glove mechanism 3 include the first idler wheel 31, material collecting box 32, support plate 33, It is bonded to each other at filter plate 34, strut 35 and plugging plate 36, first idler wheel 31 and the inclined-plane of the adjusting block 12, described One idler wheel 31 is installed on the bottom of the material collecting box 32, and the two side of the material collecting box 32 is vertically equipped with the support plate 33, institute The top for stating material collecting box 32 is equipped with the filter plate 34 of arc surfaced, and the lateral section of the filter plate 34 is semicircle shape, the filter plate 34 It is fixedly connected with the inner wall of the support plate 33, hairbrush 341 is distributed in the top inner wall of the filter plate 34, the support plate 33 Top surface midline is vertically equipped with the strut 35, and the top of the strut 35 is equipped with the plugging plate 36, and the plugging plate 36 is It is skewed；In order to realize that raw material discharges while milling, milling efficiency is good, and discharging speed is fast, and can also be by the original of adherency Material is wiped off.

Specifically, as shown in Figure 1, the milling mechanism 2 includes milling cylinder 21, rotary electric machine 22 and holder 23, it is described Cylinder 21 of milling, which is spaced, is placed in the inside of the filter plate 34, described to mill cylinder 21 and the center of circle of the filter plate 34 is located at same point, institute The end for stating cylinder 21 of milling is rotatably connected to the rotary electric machine 22, and the rotary electric machine 22 is fixedly connected with the holder 23；For It mills to raw material.

Specifically, as depicted in figs. 1 and 2, the feeding machanism 4 include material box 41, lower hopper 42, tremie pipe 43 and Pillar 44, the tremie pipe 43 are internally provided with the plugging plate 36, and the side wall of the tremie pipe 43 is provided with discharge port 431, institute The top that discharge port 431 is located at gap between the filter plate 34, the cylinder 21 of milling is stated, the top of the tremie pipe 43, which is equipped with, inclines The side of the ramp-like lower hopper 42, the lower hopper 42 is communicated with the material box 41；In order to realize raw material it is automatic under Material is closed.

Specifically, as shown in figures 1 to 6, the bindiny mechanism 8 includes position-limited box 81 and connecting rod 82, the position-limited box 81 Inside be socketed with the support plate 33, the sidewall symmetry of the position-limited box 81 is equipped with the connecting rod 82, the connecting rod 82 and institute Support plate 33 is stated to be fixedly connected；In order to enable the movement of glove mechanism 3 is more stable.

It cooperates to realize milling for raw material using semicircular filter plate 34 and cylinder 21 of milling so that reach requirement Raw material can run through filter plate 34 and enter in material collecting box 32 and be collected so that mill, sieve, collection process one Change, is processed without multiple flows；The reciprocal of displacement mechanism 1 can be realized by the mutual cooperation of driving mechanism 6, transmission mechanism 7 Movement, and the first idler wheel 31 is driven to move up and down along the inclined-plane of adjusting block 12, so that between filter plate 34 and cylinder 21 of milling Gap constantly become larger, reduce so that the raw material of bulky grain can be rolled to bottom and be milled again；Raising is milled effect Fruit；When glove mechanism 3 moves to lowermost end, plugging plate 36 can move to the bottom of discharge port 431 so that raw material can be certainly It is dynamic to be expelled in filter plate 34, realize automatic charging, and when glove mechanism 3 moves upwards, plugging plate 36 can block discharging Mouth 431, without human intervention.Specifically have：

(1) when original state, the first idler wheel 31 is located at the least significant end of adjusting block 12, and plugging plate 36 is placed in discharge port at this time 431 bottom, the raw material in material box 41 are finally expelled to cylinder of milling by lower hopper 42, tremie pipe 43 and discharge port 431 21, in the gap between filter plate 34, feeding is realized；

(2) start driving motor 61 and rotary electric machine 22 so that cylinder 21 of milling starts to rotate, and driving motor 61 is with moving cam 62 rotations, and then push drive link 71 and compressed spring 74, subsequent adjusting block 12 to be moved along sliding rail 11 by the second idler wheel 72, First idler wheel 31 is moved upwards along the inclined-plane of adjusting block 12 so that glove mechanism 3 is whole to be moved upwards, filter plate 34 and cylinder of milling Gap between 21 will be gradually reduced, and cylinder 21 of milling can start to mill to raw material, when powder of milling reaches requirement, It will be escaped and enter from filter plate 34 into material collecting box 32, in rotation process, hairbrush 341 can be by the raw material for 21 outer wall of cylinder of milling It wipes off；

(3) when cam 62, which proceeds by, to be rotated backward, drive link 71 will counter motion under the action of spring 74, with The first idler wheel 31 can be moved downward along the inclined-plane of adjusting block 12 afterwards, and glove mechanism 3 is whole to be moved downward, filter plate 34 and cylinder of milling Gap between 21 will gradually subtract increase, and plugging plate 36 can move downward, when the gap between filter plate 34 and cylinder 21 of milling most When big, plugging plate 36 will move to the bottom of discharge port 431, and raw material, which can be flowed out to automatically in gap, mill next time, So cycle.

The present invention cooperates to realize milling for raw material using semicircular filter plate 34 with cylinder 21 of milling so that reaches Raw material to requirement can run through filter plate 34 and enter in material collecting box 32 and is collected so that mill, sieve, collection process Integration is processed without multiple flows；Displacement mechanism 1 can be realized by the mutual cooperation of driving mechanism 6, transmission mechanism 7 It moves back and forth, and the first idler wheel 31 is driven to move up and down along the inclined-plane of adjusting block 12, so that filter plate 34 and cylinder 21 of milling Between gap constantly become larger, reduce so that the raw material of bulky grain can be rolled to bottom and be milled again；Raising is milled Effect；When glove mechanism 3 moves to lowermost end, plugging plate 36 can move to the bottom of discharge port 431 so that raw material can It is automatically drained out to filter plate 34, realizes automatic charging, and when glove mechanism 3 moves upwards, plugging plate 36 can be blocked out Material mouth 431, without human intervention.

The basic principles, main features and advantages of the invention have been shown and described above.The technical staff of the industry should Understand, the present invention is not limited to the above embodiments, and the description in the above embodiment and specification only illustrates the present invention Principle, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these variation and Improvement is both fallen in the scope of protection of present invention.The claimed scope of the invention is by appended claims and its equivalent Object defines.

Claims (8)

1. a kind of zirconium silicate production and processing technology for Production of Ceramics, which is characterized in that the production and processing method includes following Step：

Mined zircon is removed impurity by S1 through wet concentration, electric separation, magnetic separation；

The zircon obtained in S1 is put into powder former and is milled, sieved and collected by S2, and zircon becomes powdered Zirconium silicate；

The zirconium silicate collected in S2 is put into drying equipment and processing is dried by S3；

Zirconium silicate in S3 after drying is encapsulated and is preserved by S4；

The powder former used in the technique includes displacement mechanism (1), milling mechanism (2), glove mechanism (3), feeding machanism (4), driving box (5), driving mechanism (6), transmission mechanism (7) and bindiny mechanism (8)；Institute's displacement mechanism (1) is fixedly connected The transmission mechanism (7), transmission mechanism (7) mating connection driving mechanism (6), the transmission mechanism (7), the drive Motivation structure (6) collective effect realizes the movement of institute's displacement mechanism (1)；The transmission mechanism (7), the driving mechanism (6) are equal Inside set on the driving box (5)；The glove mechanism (3), the glove machine are installed at the top of institute's displacement mechanism (1) Structure (3) is to raw material progress support and screening；The top of the glove mechanism (3) is equipped with the milling mechanism (2), the stone roller Grinding machine structure (2) is pulverizing raw material；The milling mechanism (2) connects the glove mechanism by the bindiny mechanism (8) (3), the bindiny mechanism (8) is limiting the glove mechanism (3)；The glove mechanism (3), the milling mechanism (2) feeding machanism (4) is installed, the feeding machanism (4) by raw material being expelled to described set between at the top of gap In object mechanism (3).

2. a kind of zirconium silicate production and processing technology for Production of Ceramics according to claim 1, it is characterised in that：It is described Driving mechanism (6) includes driving motor (61) and cam (62), and the driving motor (61) is set to the interior of the driving box (5) Wall, the driving motor (61) are rotatablely connected the cam (62).

3. a kind of zirconium silicate production and processing technology for Production of Ceramics according to claim 2, it is characterised in that：It is described Transmission mechanism (7) includes drive link (71), the second idler wheel (72), position-limiting tube (73) and spring (74), second idler wheel (72) outer wall with the cam (62) is bonded to each other, and the drive link (71) is through the position-limiting tube (73), the driving The outer wall of case (5), the drive link (71) is equipped with pressing plate (711), and the pressing plate (711) is set to the interior of the position-limiting tube (73) Portion, the inner wall of the position-limiting tube (73) are fixedly connected with one end of the spring (74), the other end of the spring (74) with it is described Pressing plate (711) is fixedly connected.

4. a kind of zirconium silicate production and processing technology for Production of Ceramics according to claim 3, it is characterised in that：It is described Displacement mechanism (1) includes sliding rail (11) and adjusting block (12), the end of the side wall and the drive link (71) of the adjusting block (12) Portion is fixedly connected, and is slidably connected between the adjusting block (12) and the sliding rail (11), and the section that the adjusting block (12) is is Right angled triangle.

5. a kind of zirconium silicate production and processing technology for Production of Ceramics according to claim 4, it is characterised in that：It is described Glove mechanism (3) includes the first idler wheel (31), material collecting box (32), support plate (33), filter plate (34), strut (35) and plugging plate (36), it is bonded to each other at first idler wheel (31) and the inclined-plane of the adjusting block (12), first idler wheel (31) is installed on The two side of the bottom of the material collecting box (32), the material collecting box (32) is vertically equipped with the support plate (33), the material collecting box (32) top is equipped with the filter plate (34) of arc surfaced, and the lateral section of the filter plate (34) is semicircle shape, the filter plate (34) It is fixedly connected with the inner wall of the support plate (33), hairbrush (341), the support is distributed in the top inner wall of the filter plate (34) The top surface midline of plate (33) is vertically equipped with the strut (35), and the top of the strut (35) is equipped with the plugging plate (36), The plugging plate (36) is skewed.

6. a kind of zirconium silicate production and processing technology for Production of Ceramics according to claim 5, it is characterised in that：It is described Milling mechanism (2) includes mill cylinder (21), rotary electric machine (22) and holder (23), and cylinder of milling (21) interval is placed in described The inside of filter plate (34), the cylinder of milling (21) and the center of circle of the filter plate (34) are located at same point, the cylinder of milling (21) End is rotatably connected to the rotary electric machine (22), and the rotary electric machine (22) is fixedly connected with the holder (23).

7. a kind of zirconium silicate production and processing technology for Production of Ceramics according to claim 4, it is characterised in that：It is described Feeding machanism (4) includes material box (41), lower hopper (42), tremie pipe (43) and pillar (44), the tremie pipe (43) It is internally provided with the plugging plate (36), the side wall of the tremie pipe (43) is provided with discharge port (431), discharge port (431) position The top in gap between the filter plate (34), the cylinder of milling (21), the top of the tremie pipe (43) is equipped with skewed The side of the lower hopper (42), the lower hopper (42) is communicated with the material box (41).

8. a kind of zirconium silicate production and processing technology for Production of Ceramics according to claim 4, it is characterised in that：It is described Bindiny mechanism (8) includes position-limited box (81) and connecting rod (82), and the inside of the position-limited box (81) is socketed with the support plate (33), The sidewall symmetry of the position-limited box (81) is equipped with the connecting rod (82), the connecting rod (82) and the fixed company of the support plate (33) It connects.