CN109132335A - One kind is for bagged material conveying equipment in horizontal mining construction - Google Patents

Abstract

The invention discloses one kind for bagged material conveying equipment in horizontal mining construction, and wherein sliding slot includes: guide rail fixing bolt, guide rail upright columns, guide rail base, guide rail beam, sliding slot shell；The sliding slot shell is hollow rectangular parallelepiped structure；The guide rail base is fixedly connected with sliding slot shell wall, and the quantity of guide rail base is 2, and the distance between adjacent rails pedestal is 2cm~5cm；The guide rail beam is parallel with guide rail base, is fixedly connected between guide rail beam and guide rail base by guide rail upright columns；The guide rail fixing bolt is set to sliding slot shell wall upper and lower ends, and guide rail fixing bolt is connect with the threads turn on sliding slot shell wall.One kind of the present invention is for bagged material conveying equipment in horizontal mining construction, and the device production technology is relatively easy, and easy to operate, efficient work is steady, and cost is relatively low, the noise of generation is smaller；And the apparatus surface is not easy to wear, substantially increases the working life of transmission belt.

Description

One kind is for bagged material conveying equipment in horizontal mining construction

Technical field

The invention belongs to transmission device fields, and in particular to one kind is set for bagged material conveying in horizontal mining construction It is standby.

Background technique

Transmission belt is that tension element selects high-intensitive, the low zinc-plated copper rope of extension, and core rubber uses good, resistance to wirerope adhesiveness The sizing material tired, ageing-resistant, elasticity is good, rubber cover select high, wear-resisting, the ageing-resistant sizing material composition of intensity.Suitable for coal, mine The material of the industries such as mountain, harbour, electric power, metallurgy, building materials conveys, with tensile strength is big, the service life is long, uses small, the resistance to song of elongation Flexibility is good, conveys for long range, large span, large conveying quantity and high speed material.

Existing transmission belt includes driving wheel, follower and the Wheel chain driving belt with composition for being wrapped in periphery, transmission belt Inside be provided with several wheel shafts for being cased with roller or idler wheel, the both ends of wheel shaft through connecting shaft chain backwards to adjacent wheel shaft Connection forms an annular closed chain, has the fixed board being fixed on the rack, roller or idler wheel on the inside of the roller or idler wheel of compression face It contacts and rolls on fixed board after compression.Although the transmission belt of this structure, which changes to pass, picks up the traditional structure with dead axle sliding, not In the case where changing aerodynamic power, increased compared with existing biography picks up device by the movement velocity of conveying objects.But this Kind of transmission belt noise is big, rough surface and is prone to wear, and in addition this transmission belt production technology is all complex, and transporting is not By force, and production cost is higher, and there is very big drawbacks.

Summary of the invention

In order to solve the above technical problem, the present invention provides one kind to set for bagged material conveying in horizontal mining construction It is standby, comprising: bracket 1, driving motor 2, speed probe 3, retarder 4 limit rail device 5, transmission belt 6, brake 7, curve rail Road 8, electrical control cabinet 9；The bracket 1 is equipped with curve track 8, and bracket 1 is threadedly coupled with curve track 8, wherein the number of bracket 1 Amount is not less than 5；The curve track 8 is equipped with transmission belt 6, and transmission belt 6 is slidably connected with curve track 8；The curve rail 8 end side of road is equipped with driving motor 2 and retarder 4, and the 8 end other side of curve track is equipped with brake 7, retarder 4 and song Trajectory 8 is threadedly coupled, and wherein 4 one end center of retarder is equipped with speed probe 3；The limit rail device 5 is located at curve track 8 Top, limit rail device 5 are threadedly coupled with curve track 8, wherein limit 5 quantity of rail device is not less than 5；The electrical control cabinet 9 It is placed in 8 bottom of curve track, electrical control cabinet 9 is connected by conducting wire with driving motor 2 and the control of speed probe 3.

Further, this section is the explanation to heretofore described 1 structure of bracket.The bracket 1 includes: carriage drive electricity Machine 1-1, change gear box 1-2, built-in gear 1-3, containing rack gear sliding rail 1-4, rack shell 1-5, fixed block 1-6, L-type is sliding Block 1-7；The rack shell 1-5 is located at the top of 1 pedestal of bracket, and rack shell 1-5 is vertical with 1 pedestal of bracket and fixation connects It connects, rack shell 1-5 is hollow structure；It is described to be set to inside rack shell 1-5 containing rack gear sliding rail 1-4, contain rack gear sliding rail 1-4 is vertical with 1 pedestal of bracket and is fixedly connected；The L-type sliding block 1-7 is arranged in containing the side rack gear sliding rail 1-4, L-type sliding block Built-in gear 1-3 is equipped with inside 1-7；The built-in gear 1-3 engages connection with containing rack gear sliding rail 1-4；The L-type is sliding Block 1-7 engages realization and being slidably connected containing rack gear sliding rail 1-4 with containing rack gear sliding rail 1-4 by built-in gear 1-3； The fixed block 1-6 is located at the top L-type sliding block 1-7, and fixed block 1-6 is fixedly connected with 8 outer wall of curve track；The transmission gear Case 1-2 is arranged in the side L-type sliding block 1-7, and change gear box 1-2 and built-in gear 1-3 are sequentially connected；The carriage drive electricity Machine 1-1 is located at the lower end change gear box 1-2 side, and carriage drive motor 1-1 and change gear box 1-2 are sequentially connected, and bracket drives Dynamic motor 1-1 is connected by conducting wire with the control of electrical control cabinet 9.

Further, this section is the explanation to heretofore described 4 structure of retarder.The retarder 4 includes: friction skin Tape controller 4-1, friction belt 4-2, rotating disc 4-3, rotation axis 4-4, friction belt slack adjuster 4-5, rotation axis are cooling Water tank 4-6；The rotating disc 4-3 is arranged in the one end rotation axis 4-4, and rotating disc 4-3 and rotation axis 4-4 are fixed by the bracket company It connects；The friction belt 4-2 is wound on rotating disc 4-3, and one end of friction belt 4-2 and friction belt controller 4-1 are controlled Connection；The friction belt controller 4-1 is connected by conducting wire with electrical control cabinet 9；The friction belt slack adjuster 4-5 Positioned at the side rotating disc 4-3, the friction belt 4-2 phase of the front end and the top rotating disc 4-3 of friction belt slack adjuster 4-5 Even, the lower end of friction belt slack adjuster 4-5 is connected with friction belt controller 4-1；The rotation axis cooling water tank 4-6 is set In the middle part of rotation axis 4-4 and the two connects.

Further, this section is the explanation to heretofore described limit 5 structure of rail device.The limit rail device 5 includes: solid Determine block 5-1, horizontal supporting rod 5-2, vertical slide bar 5-3, horizontal sliding bar 5-4, vertical supporting rod 5-5, gag lever post 5-6, level is slided Block 5-7, vertical slipper 5-8；The fixed block 5-1 quantity is 2, is equipped with vertical slide bar 5-3 on each fixed block 5-1；Institute Vertical slide bar 5-3 is stated equipped with vertical slipper 5-8, vertical slipper 5-8 quantity is 2, vertical slipper 5-8 and vertical slide bar 5-3 It is slidably connected, wherein horizontal supporting rod 5-2 is equipped on each vertical slipper 5-8, horizontal supporting rod 5-2 and vertical slipper 5-8 It is slidably connected；The horizontal sliding bar 5-4 is located at the top vertical slide bar 5-3, and horizontal sliding bar 5-4 is fixedly connected with vertical slide bar 5-3； The horizontal sliding bar 5-4 is equipped with horizontal slider 5-7, and horizontal slider 5-7 is slidably connected with horizontal sliding bar 5-4, horizontal slider 5-7 Quantity is 3, wherein being arranged with vertical supporting rod 5-5 on each horizontal slider 5-7；The horizontal supporting rod 5-2 and vertical Gag lever post 5-6 is equipped on supporting rod 5-5, wherein gag lever post 5-6 quantity is no more than 5.

Further, this section is the explanation to heretofore described fixed block 5-1 structure.The fixed block 5-1 includes: solid Determine block pedestal 5-1-1, bail regulating device 5-1-2, bail outer tube 5-1-3, bail 5-1-4, fixed ring adjuster 5-1-5, Bail fixed ring 5-1-6, fixed ring connecting rod 5-1-7；The fixed block pedestal 5-1-1 is located at the side bail fixed ring 5-1-6, Gu Determine block pedestal 5-1-1 and is fixedly connected with bail fixed ring 5-1-6 by fixed ring connecting rod 5-1-7；The bail fixed ring 5-1-6 It is arranged in the bottom vertical slide bar 5-3, the diameter of bail fixed ring 5-1-6 is greater than the diameter of vertical slide bar 5-3；The vertical slide bar 5-3 is vertical with the bail center fixed ring 5-1-6, and vertical slide bar 5-3 is the hollow structure of diameter 8cm~12cm；Outside the bail Casing 5-1-3 is set on bail fixed ring 5-1-6, and bail outer tube 5-1-3 is fixedly connected with bail fixed ring 5-1-6, bail The quantity of outer tube 5-1-3 is 3, and adjacent bail outer tube 5-1-3 is equidistant as center axis using the center of circle of bail fixed ring 5-1-6 Distribution, and the angle between adjacent bail outer tube 5-1-3 is 120 °, the rear and front end difference of each bail outer tube 5-1-3 It is connect with bail 5-1-4 and bail regulating device 5-1-2；The bail 5-1-4 is right under the action of bail regulating device 5-1-2 Vertical slide bar 5-3 is fixed；The fixed ring adjuster 5-1-5 is connected to bail fixed ring 5-1-6 outer wall side.

Further, this section is the explanation to heretofore described horizontal supporting rod 5-2 structure.The horizontal supporting rod 5- 2 include: built-in motor 5-2-1, supporting rod butt end 5-2-2, fan shaft 5-2-3, supporting rod air inlet 5-2-4, in supporting rod Set fan 5-2-5, supporting rod taper end 5-2-6, supporting rod gas outlet 5-2-7；The supporting rod butt end 5-2-2 is arranged in entire water On the right side of flat supporting rod 5-2, the diameter of supporting rod butt end 5-2-2 is 15cm~25cm；The fan shaft 5-2-3 it is horizontally disposed in Inside supporting rod butt end 5-2-2, one end of fan shaft 5-2-3 and built-in motor 5-2-1 are rotatablely connected；The built-in motor 5- 2-1 is connected by conducting wire with the control of electrical control cabinet 9；The supporting rod air inlet 5-2-4 be located in the middle part of fan shaft 5-2-3 and The two is fixedly connected, and the quantity of supporting rod air inlet 5-2-4 is 4, and adjacent supporting rod air inlet 5-2-4 is along fan shaft 5-2- 3 are angularly distributed；The supporting rod built-in fans 5-2-5 is located at the both ends fan shaft 5-2-3, supporting rod built-in fans 5-2-5 It is fixedly connected with fan shaft 5-2-3；The supporting rod taper end 5-2-6 is arranged on the left of entire horizontal supporting rod 5-2, supporting rod Taper end 5-2-6 is fixedly welded and is mutually communicated with supporting rod butt end 5-2-2, the diameter of supporting rod taper end 5-2-6 be 10cm~ 15cm；The supporting rod gas outlet 5-2-7 is set to the one end supporting rod taper end 5-2-6.

Further, this section is the explanation to heretofore described gag lever post 5-6 structure.The gag lever post 5-6 includes: oil Cylinder left chamber 5-6-1, oil cylinder piston 5-6-2, right cavity of cylinder room 5-6-3, mobile bar 5-6-4, right end oil syringe 5-6-5, oiling Device communicating pipe 5-6-6, left end oil syringe 5-6-7, gag lever post oil pump 5-6-8, left end fuel feed hole 5-6-9, right end fuel feed hole 5-6- 10；The mobile bar 5-6-4 is located inside gag lever post 5-6, and the diameter of mobile bar 5-6-4 is less than the diameter of gag lever post 5-6；It is described Oil cylinder piston 5-6-2 is set at the top of mobile bar 5-6-4, and oil cylinder piston 5-6-2 is fixedly connected with mobile bar 5-6-4, oil cylinder piston 5-6-2 is slidably connected with gag lever post 5-6 inner wall；The right cavity of cylinder room 5-6-3 is located at oil cylinder piston 5-6-2 right part, and oil cylinder is right Channel of the chamber 5-6-3 between mobile bar 5-6-4 and gag lever post 5-6 inner wall；It is living that the oil cylinder left chamber 5-6-1 is located at oil cylinder Fill in 5-6-2 left part；The left end oil syringe 5-6-7 is arranged in gag lever post 5-6 top side, and left end oil syringe 5-6-7 passes through a left side Fuel feed hole 5-6-9 and oil cylinder left chamber 5-6-1 perforation is held to connect, left end oil syringe 5-6-7 is controlled by conducting wire and electrical control cabinet 9 System connection；The gag lever post oil pump 5-6-8 is connected to the left end side oil syringe 5-6-7, gag lever post oil pump 5-6-8 by conducting wire with The control of electrical control cabinet 9 is connected；The right end oil syringe 5-6-5 is arranged in gag lever post 5-6 bottom side, right end oil syringe 5-6- 5 are connected by right end fuel feed hole 5-6-10 and right cavity of cylinder room 5-6-3 perforation, and right end oil syringe 5-6-5 is by conducting wire and electrically The control connection of control cabinet 9；Oil syringe communicating pipe 5-6-6 is fixedly connected on left end oil syringe 5-6-7 and right end oil syringe 5- Between 6-5, the both ends of oil syringe communicating pipe 5-6-6 are penetrated through with left end fuel feed hole 5-6-9 and right end fuel feed hole 5-6-10 respectively.

Further, this section is the explanation to heretofore described left end oil syringe 5-6-7 structure.The left end oil syringe 5-6-7 includes: oil syringe oil inlet 5-6-7-1, filter 5-6-7-2, oil syringe paddle 5-6-7-3, oil syringe solenoid valve 5-6-7-4, oil syringe rotator 5-6-7-5, safety valve 5-6-7-6；The oil syringe oil inlet 5-6-7-1 is located at left end oiling On the right side of device 5-6-7, oil syringe oil inlet 5-6-7-1 and gag lever post oil pump 5-6-8 perforation are connected；The filter 5-6-7-2 water Plain cloth is placed at the oil syringe 5-6-7 inside center of left end, and one end of filter 5-6-7-2 and left end fuel feed hole 5-6-9 perforation connect It connects, the distance between the filter 5-6-7-2 other end and oil syringe oil inlet 5-6-7-1 are 8cm~10cm；The oil syringe rotation Turn device 5-6-7-5 and be connected to left end oil syringe 5-6-7 inside left, oil syringe rotator 5-6-7-5 passes through conducting wire and electric-controlled The control of cabinet 9 processed is connected；The oil syringe paddle 5-6-7-3 is set to the side filter 5-6-7-2, oil syringe paddle 5-6-7- 3 are fixedly connected with oil syringe rotator 5-6-7-5；The quantity of the oil syringe solenoid valve 5-6-7-4 is 2, one of note Oily device solenoid valve 5-6-7-4 is connected to the left end top fuel feed hole 5-6-9, another oil syringe solenoid valve 5-6-7-4 is connected to note Oily device communicating pipe 5-6-6 top, oil syringe solenoid valve 5-6-7-4 are connected by conducting wire and the control of electrical control cabinet 9；The safety Valve 5-6-7-6 is fixedly connected on left end oil syringe 5-6-7 left hand external.

Further, this section is the explanation to heretofore described 6 structure of transmission belt.The transmission belt 6 includes: loading plate 6-1, connecting hole 6-2 are connected groove 6-3, sliding slot 6-4, connector 6-5, are connected boss 6-6；The two sides the loading plate 6-1 are all provided with There are sliding slot 6-4, sliding slot 6-4 to be slidably connected with curve track 8；The side the loading plate 6-1 is equipped with linking groove 6-3, the other side Equipped with linking boss 6-6, wherein being equipped with connecting hole 6-2 on linking groove 6-3, it is connected inside boss 6-6 and is equipped with connector 6-5.

Further, this section is the explanation to heretofore described sliding slot 6-4 structure.The sliding slot 6-4 includes: that guide rail is solid Determine bolt 6-4-1, guide rail upright columns 6-4-2, guide rail base 6-4-3, guide rail beam 6-4-4, sliding slot shell 6-4-5；The splined hub Body 6-4-5 is hollow rectangular parallelepiped structure；The guide rail base 6-4-3 is fixedly connected with sliding slot shell 6-4-5 wall, guide rail base The quantity of seat 6-4-3 is 2, and the distance between adjacent rails pedestal 6-4-3 is 2cm~5cm；The guide rail beam 6-4-4 with Guide rail base 6-4-3 is parallel, is fixedly connected between guide rail beam 6-4-4 and guide rail base 6-4-3 by guide rail upright columns 6-4-2； The guide rail fixing bolt 6-4-1 is set to sliding slot shell 6-4-5 wall upper and lower ends, guide rail fixing bolt 6-4-1 and sliding slot shell 6- Threads turn connection on 4-5 wall.

Further, this section is the explanation to heretofore described connector 6-5 structure.The connector 6-5 includes: to connect Spindle 6-5-1, spring 6-5-2, buffer bar 6-5-3, spring fixing groove 6-5-4；The connecting shaft 6-5-1 is equipped with buffer bar 6- 5-3, buffer bar 6-5-3 share two groups, and every group of quantity is 2, and wherein buffer bar 6-5-3 is equipped with spring fixing groove 6-5-4；Institute Spring fixing groove 6-5-4 is stated equipped with spring 6-5-2, each spring fixing groove 6-5-4 upper spring 6-5-2 quantity is 9.

Further, this section is the explanation to heretofore described 7 structure of brake.The brake 7 includes: brake Bracket 7-1, hydraulic tongs 7-2, brake block 7-3, radiator fan 7-4, brake casing 7-5, brake transmission shaft 7-6；The brake Device bracket 7-1 is connected to brake two side lower part of transmission shaft 7-6, and the quantity of brake bracket 7-1 is 2, every side brake bracket Distance of the 7-1 away from brake casing 7-5 outer wall is 8cm~10cm；The brake transmission shaft 7-6 is horizontal through brake casing 7- Inside 5；The brake block 7-3 is located inside brake casing 7-5, and brake block 7-3 and transmission shaft 7-6 coaxially fixed company of braking It connects, brake block 7-3 is the circular configuration of thickness 10mm~20mm；The hydraulic tongs 7-2 is arranged in the two sides brake block 7-3, hydraulic Pincers 7-2 is connected by conducting wire with electrical control cabinet 9, and hydraulic tongs 7-2 is close with brake block 7-3 under the control of electrical control cabinet 9 Pressing；The radiator fan 7-4 is set to brake one end transmission shaft 7-6, and radiator fan 7-4 is coaxially fixed with brake transmission shaft 7-6 Connection, the quantity of radiator fan 7-4 are 2.

Further, the invention also discloses a kind of work sides for bagged material conveying equipment in horizontal mining construction Method, this method including the following steps:

Step 1: in a kind of whole device for bagged material conveying equipment in horizontal mining construction, staff is by the dress After the completion of setting installation fixation, 9 power supply of electrical control cabinet is connected, presses start button, electrical control cabinet 9 controls driving motor 2 and opens Moving and passing through retarder 4 drives transmission belt 6 to operate；In 6 operation process of transmission belt, 3 real-time monitoring transmission belt 6 of speed probe Velocity of displacement, and electric signal transmission is generated to electrical control cabinet 9, electrical control cabinet 9 is real-time according to 3 feedback information of speed probe 2 revolving speed of driving motor is controlled, maintains 6 running speed of transmission belt near setting value；It is urgent when being needed in 6 operation process of transmission belt When brake, staff presses scram button, and electrical control cabinet 9 controls driving motor 2 and shuts down, while controlling brake 7 Starting carries out emergency brake to the transmission belt 6 in operating；

Step 2: in 1 operation process of bracket, power on and start electrical control cabinet 9, electrical control cabinet 9 controls carriage drive Motor 1-1 is operated, and drives built-in gear 1-3 rotation by change gear box 1-2, and then promote built-in gear 1- 3 engage with containing rack gear sliding rail 1-4, realize moving up and down for L-type sliding block 1-7；

Step 3: in 4 operation process of retarder, friction belt controller 4-1 is under the control of electrical control cabinet 9 to friction skin Band 4-2 implements to tense, and to realize that friction belt 4-2 is closely wound the rotating disc 4-3 of operating, realizes and slows down；Meanwhile rotation axis Cooling water tank 4-6 cools down the retarder 4 operated；

Step 4: being the process of conveying products in limit 5 operation process of rail device, when every batch of product size difference, work Personnel need that limit rail device 5 is adjusted；Staff passes through first adjusts horizontal slider 5-7 and vertical slipper 5-8 difference Realize the variation of horizontal supporting rod 5-2 and the relative position vertical supporting rod 5-5, and then by adjust horizontal supporting rod 5-2 and The variation for the overhang that vertical supporting rod 5-5 is realized, is finally completed the shift in position of gag lever post 5-6；

Step 5: in fixed block 5-1 operation process, bail 5-1-4 is realized by the effect of bail regulating device 5-1-2 to vertical The fixation of straight slide bar 5-3 with loosen；Meanwhile realizing that bail fixed ring 5-1-6's is flexible by fixed ring adjuster 5-1-5；

Step 6: in horizontal supporting rod 5-2 operation process, wind enters in horizontal supporting rod 5-2 from supporting rod air inlet 5-2-4 Portion；Meanwhile built-in motor 5-2-1 is operated under the control that electrical control cabinet 9 controls, and drive fan shaft 5-2-3 and The rotation of supporting rod built-in fans 5-2-5, and then radiate to horizontal supporting rod 5-2；Then, hot wind is from supporting rod taper end 5- The supporting rod gas outlet 5-2-7 of the one end 2-6 is discharged；

Step 7: in gag lever post 5-6 operation process, electrical control cabinet 9 controls gag lever post oil pump 5-6-8 and is operated；Meanwhile Electrical control cabinet 9 controls the on and off of left end oil syringe 5-6-7 and right end oil syringe 5-6-5；As left end oil syringe 5-6-7 When in the open state and right end oil syringe 5-6-5 is in close state, oil enters oil cylinder left chamber from left end fuel feed hole 5-6-9 5-6-1 promotes oil cylinder piston 5-6-2 and mobile bar 5-6-4 to move right；When right end oil syringe 5-6-5 is in the open state and When left end oil syringe 5-6-7 is in close state, oil enters oil from right end fuel feed hole 5-6-10 by oil syringe communicating pipe 5-6-6 Cylinder right chamber 5-6-3 promotes oil cylinder piston 5-6-2 and mobile bar 5-6-4 to move downward；

Step 8: in the oil syringe 5-6-7 operation process of left end, oil enters left end oil syringe 5- from oil syringe oil inlet 5-6-7-1 Inside 6-7；Meanwhile oil syringe rotator 5-6-7-5 is operated under the control of electrical control cabinet 9, and then drives oil syringe The stirring to oil is realized in the rotation of paddle 5-6-7-3；Later, two oil syringe solenoid valve 5-6-7-4 are in electrical control cabinet 9 Control under open or close, realize the different flow direction flowings of oil；

Step 9: in 6 operation process of transmission belt, the connector 6-5 inside transmission belt 6 ensures each loading plate 6-1's Even running；

Step 10: in sliding slot 6-4 operation process, each device in sliding slot 6-4 ensures transmission belt 6 on curve track 8 Steadily slide；

Step 11: in connector 6-5 operation process, when loading plate 6-1 is moved at curve bend, wherein one group of buffer bar Spring 6-5-2 forced compression on 6-5-3, the spring 6-5-2 stress on another group of buffer bar 6-5-3 stretches, and passes through power Effect be transferred to connecting shaft 6-5-1, realize two neighboring loading plate 6-1 be stably connected with and even running；

Step 12: in 7 operation process of brake, after powering on, hydraulic tongs 7-2 is controlled by starting electrical control cabinet 9 Running, realize close pressing of the hydraulic tongs 7-2 in two sides to brake block 7-3, brake block 7-3 and brake transmission shaft 7-6 forced to stop Rotation stop is dynamic, the final urgent stop for realizing transmission belt 6.

It is disclosed by the invention a kind of for bagged material conveying equipment in horizontal mining construction, the advantage is that: the device Easy to operate using automatic control, efficient work is steady, and internal connector is in the premise for guaranteeing transmission belt smooth working Under, substantially increase the working life of transmission belt.

Detailed description of the invention

Fig. 1 is heretofore described one kind for bagged material conveying equipment structural schematic diagram in horizontal mining construction.

Fig. 2 is heretofore described 1 structural schematic diagram of bracket.

Fig. 3 is heretofore described 4 structural schematic diagram of retarder.

Fig. 4 is heretofore described 5 structural schematic diagram of limit rail device.

Fig. 5 is heretofore described fixed block 5-1 structural schematic diagram.

Fig. 6 is heretofore described horizontal supporting rod 5-2 structural schematic diagram.

Fig. 7 is heretofore described gag lever post 5-6 structural schematic diagram.

Fig. 8 is heretofore described left end oil syringe 5-6-7 structural schematic diagram.

Fig. 9 is heretofore described 6 structural schematic diagram of transmission belt.

Figure 10 is heretofore described sliding slot 6-4 structural schematic diagram.

Figure 11 is heretofore described connector 6-5 structural schematic diagram.

Figure 12 is heretofore described 7 structural schematic diagram of brake.

Figure 13 is heretofore described buffer bar 6-5-3 fatigue resistance gaining rate and N- methyl-N- (trimethyl silyl Base) three fluoro acetamide volume relationship of -2,2,2-.

Specific embodiment

With reference to the accompanying drawing to provided by the invention a kind of for bagged material conveying equipment progress in horizontal mining construction It further illustrates.

As shown in Figure 1, being heretofore described one kind for bagged material conveying equipment structure in horizontal mining construction Schematic diagram.As seen from the figure, comprising: bracket 1, driving motor 2, speed probe 3, retarder 4, limit rail device 5, transmission belt 6, Brake 7, curve track 8, electrical control cabinet 9；The bracket 1 is equipped with curve track 8, and bracket 1 and 8 screw thread of curve track connect It connects, wherein 1 quantity of bracket is not less than 5；The curve track 8 is equipped with transmission belt 6, and transmission belt 6 and the sliding of curve track 8 connect It connects；The 8 end side of curve track is equipped with driving motor 2 and retarder 4, and the 8 end other side of curve track is equipped with brake 7, retarder 4 is threadedly coupled with curve track 8, and wherein 4 one end center of retarder is equipped with speed probe 3；The limit rail device 5 It positioned at 8 top of curve track, limits rail device 5 and is threadedly coupled with curve track 8, wherein limit 5 quantity of rail device is not less than 5；Institute It states electrical control cabinet 9 and is placed in 8 bottom of curve track, electrical control cabinet 9 is controlled by conducting wire and driving motor 2 and speed probe 3 System is connected.

As shown in Fig. 2, being heretofore described 1 structural schematic diagram of bracket.As seen from the figure, bracket 1 includes: that bracket drives Dynamic motor 1-1, change gear box 1-2, built-in gear 1-3 contain rack gear sliding rail 1-4, rack shell 1-5, fixed block 1-6, L Type sliding block 1-7；The rack shell 1-5 is located at the top of 1 pedestal of bracket, and rack shell 1-5 is vertical with 1 pedestal of bracket and fixed Connection, rack shell 1-5 are hollow structure；It is described to be set to inside rack shell 1-5 containing rack gear sliding rail 1-4, it is sliding containing rack gear Rail 1-4 is vertical with 1 pedestal of bracket and is fixedly connected；The L-type sliding block 1-7 is arranged in containing the side rack gear sliding rail 1-4, and L-type is sliding Built-in gear 1-3 is equipped with inside block 1-7；The built-in gear 1-3 engages connection with containing rack gear sliding rail 1-4；The L-type Sliding block 1-7 is realized by built-in gear 1-3 with engaging containing rack gear sliding rail 1-4 to be connected with the sliding containing rack gear sliding rail 1-4 It connects；The fixed block 1-6 is located at the top L-type sliding block 1-7, and fixed block 1-6 is fixedly connected with 8 outer wall of curve track；The speed change Gear-box 1-2 is arranged in the side L-type sliding block 1-7, and change gear box 1-2 and built-in gear 1-3 are sequentially connected；The bracket drives Dynamic motor 1-1 is located at the lower end change gear box 1-2 side, and carriage drive motor 1-1 and change gear box 1-2 are sequentially connected, branch Frame driving motor 1-1 is connected by conducting wire with the control of electrical control cabinet 9.

As shown in figure 3, being heretofore described 4 structural schematic diagram of retarder.As seen from the figure, retarder 4 includes: to rub Wipe belt controller 4-1, friction belt 4-2, rotating disc 4-3, rotation axis 4-4, friction belt slack adjuster 4-5, rotation axis Cooling water tank 4-6；The rotating disc 4-3 is arranged in the one end rotation axis 4-4, and rotating disc 4-3 is fixed by the bracket with rotation axis 4-4 Connection；The friction belt 4-2 is wound on rotating disc 4-3, and one end of friction belt 4-2 and friction belt controller 4-1 are controlled System connection；The friction belt controller 4-1 is connected by conducting wire with electrical control cabinet 9；The friction belt slack adjuster 4-5 is located at the side rotating disc 4-3, the front end of friction belt slack adjuster 4-5 and the friction belt 4-2 on the top rotating disc 4-3 It is connected, the lower end of friction belt slack adjuster 4-5 is connected with friction belt controller 4-1；The rotation axis cooling water tank 4-6 In the middle part of rotation axis 4-4 and the two connects.

As shown in figure 4, being heretofore described 5 structural schematic diagram of limit rail device.As seen from the figure, limit rail device 5 wraps It includes: fixed block 5-1, horizontal supporting rod 5-2, vertical slide bar 5-3, horizontal sliding bar 5-4, vertical supporting rod 5-5, gag lever post 5-6, water Smooth block 5-7, vertical slipper 5-8；The fixed block 5-1 quantity is 2, is equipped with vertical slide bar 5- on each fixed block 5-1 3；The vertical slide bar 5-3 is equipped with vertical slipper 5-8, and vertical slipper 5-8 quantity is 2, vertical slipper 5-8 and vertical slide bar 5-3 is slidably connected, wherein horizontal supporting rod 5-2 is equipped on each vertical slipper 5-8, horizontal supporting rod 5-2 and vertical slipper 5-8 is slidably connected；The horizontal sliding bar 5-4 is located at the top vertical slide bar 5-3, and horizontal sliding bar 5-4 is fixed with vertical slide bar 5-3 to be connected It connects；The horizontal sliding bar 5-4 is equipped with horizontal slider 5-7, and horizontal slider 5-7 is slidably connected with horizontal sliding bar 5-4, horizontal slider 5-7 quantity is 3, wherein being arranged with vertical supporting rod 5-5 on each horizontal slider 5-7；The horizontal supporting rod 5-2 and hang down It is equipped with gag lever post 5-6 on straight supporting rod 5-5, wherein gag lever post 5-6 quantity is no more than 5.

As shown in figure 5, being heretofore described fixed block 5-1 structural schematic diagram.As seen from the figure, fixed block 5-1 packet It includes: fixed block pedestal 5-1-1, bail regulating device 5-1-2, bail outer tube 5-1-3, bail 5-1-4, fixed ring adjuster 5- 1-5, bail fixed ring 5-1-6, fixed ring connecting rod 5-1-7；The fixed block pedestal 5-1-1 is located at bail fixed ring 5-1-6 mono- Side, fixed block pedestal 5-1-1 are fixedly connected with bail fixed ring 5-1-6 by fixed ring connecting rod 5-1-7；The bail fixed ring 5-1-6 is arranged in the bottom vertical slide bar 5-3, and the diameter of bail fixed ring 5-1-6 is greater than the diameter of vertical slide bar 5-3；It is described to hang down Straight slide bar 5-3 is vertical with the bail center fixed ring 5-1-6, and vertical slide bar 5-3 is the hollow structure of diameter 8cm~12cm；It is described Bail outer tube 5-1-3 is set on bail fixed ring 5-1-6, bail outer tube 5-1-3 and the fixed company of bail fixed ring 5-1-6 It connects, the quantity of bail outer tube 5-1-3 is 3, during adjacent bail outer tube 5-1-3 with the center of circle of bail fixed ring 5-1-6 is Mandrel is equally spaced, and the angle between adjacent bail outer tube 5-1-3 is 120 °, the front and back of each bail outer tube 5-1-3 Both ends are connect with bail 5-1-4 and bail regulating device 5-1-2 respectively；The bail 5-1-4 is bail regulating device 5-1-2's Vertical slide bar 5-3 is fixed under effect；The fixed ring adjuster 5-1-5 is connected to bail fixed ring 5-1-6 outer wall one Side.

As shown in fig. 6, being heretofore described horizontal supporting rod 5-2 structural schematic diagram.As seen from the figure, horizontal clamping Bar 5-2 includes: built-in motor 5-2-1, supporting rod butt end 5-2-2, fan shaft 5-2-3, supporting rod air inlet 5-2-4, clamping Bar built-in fans 5-2-5, supporting rod taper end 5-2-6, supporting rod gas outlet 5-2-7；The supporting rod butt end 5-2-2 is arranged in whole On the right side of a horizontal supporting rod 5-2, the diameter of supporting rod butt end 5-2-2 is 15cm~25cm；The horizontal cloth of fan shaft 5-2-3 It is placed in inside supporting rod butt end 5-2-2, one end of fan shaft 5-2-3 and built-in motor 5-2-1 are rotatablely connected；The in-built electrical Machine 5-2-1 is connected by conducting wire with the control of electrical control cabinet 9；The supporting rod air inlet 5-2-4 is located in fan shaft 5-2-3 Portion and the two is fixedly connected, the quantity of supporting rod air inlet 5-2-4 are 4, and adjacent supporting rod air inlet 5-2-4 is along fan shaft 5-2-3 is angularly distributed；The supporting rod built-in fans 5-2-5 is located at the both ends fan shaft 5-2-3, supporting rod built-in fans 5- 2-5 is fixedly connected with fan shaft 5-2-3；The supporting rod taper end 5-2-6 is arranged on the left of entire horizontal supporting rod 5-2, folder It holds bar taper end 5-2-6 and is fixedly welded and is mutually communicated with supporting rod butt end 5-2-2, the diameter of supporting rod taper end 5-2-6 is 10cm ~15cm；The supporting rod gas outlet 5-2-7 is set to the one end supporting rod taper end 5-2-6.

As shown in fig. 7, being heretofore described gag lever post 5-6 structural schematic diagram.As seen from the figure, gag lever post 5-6 packet It includes: oil cylinder left chamber 5-6-1, oil cylinder piston 5-6-2, right cavity of cylinder room 5-6-3, mobile bar 5-6-4, right end oil syringe 5-6-5, Oil syringe communicating pipe 5-6-6, left end oil syringe 5-6-7, gag lever post oil pump 5-6-8, left end fuel feed hole 5-6-9, right end fuel feed hole 5-6-10；The mobile bar 5-6-4 is located inside gag lever post 5-6, and the diameter of mobile bar 5-6-4 is less than the diameter of gag lever post 5-6； The oil cylinder piston 5-6-2 is set at the top of mobile bar 5-6-4, and oil cylinder piston 5-6-2 is fixedly connected with mobile bar 5-6-4, oil cylinder Piston 5-6-2 is slidably connected with gag lever post 5-6 inner wall；The right cavity of cylinder room 5-6-3 is located at oil cylinder piston 5-6-2 right part, oil Channel of the cylinder right chamber 5-6-3 between mobile bar 5-6-4 and gag lever post 5-6 inner wall；The oil cylinder left chamber 5-6-1 is located at oil The cylinder piston 5-6-2 left part；The left end oil syringe 5-6-7 is arranged in gag lever post 5-6 top side, and left end oil syringe 5-6-7 is logical It crosses left end fuel feed hole 5-6-9 and oil cylinder left chamber 5-6-1 perforation to connect, left end oil syringe 5-6-7 passes through conducting wire and electrical control The control connection of cabinet 9；The gag lever post oil pump 5-6-8 is connected to the left end side oil syringe 5-6-7, and gag lever post oil pump 5-6-8 passes through Conducting wire is connected with the control of electrical control cabinet 9；The right end oil syringe 5-6-5 is arranged in gag lever post 5-6 bottom side, right end oiling Device 5-6-5 is connected by right end fuel feed hole 5-6-10 and right cavity of cylinder room 5-6-3 perforation, and right end oil syringe 5-6-5 passes through conducting wire It controls and connects with electrical control cabinet 9；It is fixedly connected on left end oil syringe 5-6-7 oil syringe communicating pipe 5-6-6 and right end is infused Between oily device 5-6-5, the both ends of oil syringe communicating pipe 5-6-6 respectively with left end fuel feed hole 5-6-9 and right end fuel feed hole 5-6-10 Perforation.

As shown in figure 8, being heretofore described left end oil syringe 5-6-7 structural schematic diagram.As seen from the figure, left end is infused Oily device 5-6-7 includes: oil syringe oil inlet 5-6-7-1, filter 5-6-7-2, oil syringe paddle 5-6-7-3, oil syringe electricity Magnet valve 5-6-7-4, oil syringe rotator 5-6-7-5, safety valve 5-6-7-6；The oil syringe oil inlet 5-6-7-1 is located at left end On the right side of oil syringe 5-6-7, oil syringe oil inlet 5-6-7-1 and gag lever post oil pump 5-6-8 perforation are connected；The filter 5-6-7- 2 is horizontally disposed at the oil syringe 5-6-7 inside center of left end, and one end of filter 5-6-7-2 and left end fuel feed hole 5-6-9 are penetrated through Connection, the distance between the filter 5-6-7-2 other end and oil syringe oil inlet 5-6-7-1 are 8cm~10cm；The oil syringe Rotator 5-6-7-5 is connected to left end oil syringe 5-6-7 inside left, and oil syringe rotator 5-6-7-5 is by conducting wire and electrically The control of control cabinet 9 is connected；The oil syringe paddle 5-6-7-3 is set to the side filter 5-6-7-2, oil syringe paddle 5-6- 7-3 is fixedly connected with oil syringe rotator 5-6-7-5；The quantity of the oil syringe solenoid valve 5-6-7-4 is 2, one of them Oil syringe solenoid valve 5-6-7-4 is connected to the left end top fuel feed hole 5-6-9, another oil syringe solenoid valve 5-6-7-4 is connected to The top oil syringe communicating pipe 5-6-6, oil syringe solenoid valve 5-6-7-4 are connected by conducting wire and the control of electrical control cabinet 9；The peace Full valve 5-6-7-6 is fixedly connected on left end oil syringe 5-6-7 left hand external.

As shown in figure 9, being heretofore described 6 structural schematic diagram of transmission belt.As seen from the figure, transmission belt 6 includes: to hold Support plate 6-1, connecting hole 6-2 are connected groove 6-3, sliding slot 6-4, connector 6-5, are connected boss 6-6；The two sides the loading plate 6-1 It is equipped with sliding slot 6-4, sliding slot 6-4 is slidably connected with curve track 8；The side the loading plate 6-1 is equipped with linking groove 6-3, separately Side is equipped with linking boss 6-6, wherein being equipped with connecting hole 6-2 on linking groove 6-3, is connected inside boss 6-6 and is equipped with connector 6-5。

It as shown in Figure 10, is heretofore described sliding slot 6-4 structural schematic diagram.As seen from the figure, sliding slot 6-4 includes: Guide rail fixing bolt 6-4-1, guide rail upright columns 6-4-2, guide rail base 6-4-3, guide rail beam 6-4-4, sliding slot shell 6-4-5；It is described Sliding slot shell 6-4-5 is hollow rectangular parallelepiped structure；The guide rail base 6-4-3 is fixedly connected with sliding slot shell 6-4-5 wall, The quantity of guide rail base 6-4-3 is 2, and the distance between adjacent rails pedestal 6-4-3 is 2cm~5cm；The guide rail beam 6- 4-4 is parallel with guide rail base 6-4-3, is fixed between guide rail beam 6-4-4 and guide rail base 6-4-3 by guide rail upright columns 6-4-2 Connection；The guide rail fixing bolt 6-4-1 is set to sliding slot shell 6-4-5 wall upper and lower ends, guide rail fixing bolt 6-4-1 and splined hub Threads turn connection on body 6-4-5 wall.

It as shown in figure 11, is heretofore described connector 6-5 structural schematic diagram.As seen from the figure, connector 6-5 packet It includes: connecting shaft 6-5-1, spring 6-5-2, buffer bar 6-5-3, spring fixing groove 6-5-4；The connecting shaft 6-5-1 is equipped with slow Jumper bar 6-5-3, buffer bar 6-5-3 share two groups, and every group of quantity is 2, and wherein buffer bar 6-5-3 is equipped with spring fixing groove 6- 5-4；The spring fixing groove 6-5-4 is equipped with spring 6-5-2, and each spring fixing groove 6-5-4 upper spring 6-5-2 quantity is 9 It is a.

It as shown in figure 12, is heretofore described 7 structural schematic diagram of brake.As seen from the figure, brake 7 includes: Brake bracket 7-1, hydraulic tongs 7-2, brake block 7-3, radiator fan 7-4, brake casing 7-5, brake transmission shaft 7-6；Institute It states brake bracket 7-1 and is connected to brake two side lower part of transmission shaft 7-6, the quantity of brake bracket 7-1 is 2, every side brake Distance of the device bracket 7-1 away from brake casing 7-5 outer wall is 8cm~10cm；The brake transmission shaft 7-6 is horizontal through brake Inside shell 7-5；The brake block 7-3 is located inside brake casing 7-5, and brake block 7-3 and brake transmission shaft 7-6 are coaxial It is fixedly connected, brake block 7-3 is the circular configuration of thickness 10mm~20mm；The hydraulic tongs 7-2 is arranged in brake block 7-3 two Side, hydraulic tongs 7-2 are connected by conducting wire with electrical control cabinet 9, hydraulic tongs 7-2 under the control of electrical control cabinet 9 with brake block 7-3 is closely pressed；The radiator fan 7-4 is set to brake one end transmission shaft 7-6, and radiator fan 7-4 and brake transmission shaft 7-6 are same Axis is fixedly connected, and the quantity of radiator fan 7-4 is 2.

Following embodiment further illustrates the contents of the present invention, and as buffer bar 6-5-3, it is important set of the invention Part increases the service life of integral device due to its presence, it plays pass for the safety of integral device, even running Key effect.For this purpose, by it is following be embodiment, further verify buffer bar 6-5-3 of the present invention, what is shown is higher than The physical characteristic of other related patents.

Embodiment 1

Buffer bar 6-5-3 of the present invention is manufactured according to the following steps, and by mass percentage:

Step 1: three fluoro of N- methyl-N- (trimethyl silyl) -2,2,2- in component will be matched according to mass percent Acetamide 2% is added in three kettles series connection stirring reactor tank, while purifying lake water 3% is added, starting three kettles series connection stirring-type Blender in reactor tank, setting speed 5rpm；

Step 2: after three kettles are connected the operating of stirring reactor tank 3 minutes, CSA set-accelerating admixture 7% and 4,4- [(1- first is added Base ethylidene) two (4,1- phenylene oxygen)] diphenylamines 4%, starting three kettles series connection stirring reactor tank in steam conduction plus Hot device makes temperature rise to 7 DEG C, and diphenylguanidine PG 3% and strontium nanoparticle 9% is added, in three kettles series connection stirring reactor tank In stir evenly, obtain I component homogenate；

Step 3: weighing the promotion catalyst D 8% in proportion component according to mass percent, be homogenized and be mixed with I component, The steam conduction heaters being again started up in three kettles series connection stirring reactor tank keep the temperature 2 minutes controlled at 4 DEG C, discharging Enter molding press to get buffer bar 6-5-3 is arrived.

Embodiment 2

Buffer bar 6-5-3 of the present invention is manufactured according to the following steps, and by mass percentage:

Step 1: three fluoro of N- methyl-N- (trimethyl silyl) -2,2,2- in component will be matched according to mass percent Acetamide 11% is added in three kettles series connection stirring reactor tank, while purifying lake water 13% is added, starting three kettles series connection stirring Blender in formula reactor tank, setting speed 50rpm；

Step 2: after three kettles are connected the operating of stirring reactor tank 13 minutes, CSA set-accelerating admixture 85% and 4,4- [(1- is added Methyl ethylidene) two (4,1- phenylene oxygen)] diphenylamines 95%, start the steam conduction in three kettles series connection stirring reactor tank Heater makes temperature rise to 85 DEG C, and diphenylguanidine PG 39% and strontium nanoparticle 19% is added, in the series connection stirring-type reaction of three kettles It is stirred evenly in device tank, obtains the homogenate of I component；

Step 3: weighing the promotion catalyst D68% in proportion component according to mass percent, be homogenized and be mixed with I component, The steam conduction heaters being again started up in three kettles series connection stirring reactor tank keep the temperature 39 minutes, out controlled at 95 DEG C Expect into molding press to get to buffer bar 6-5-3.

Reference examples

Reference examples are certain commercially available brand component same as the application buffer bar 6-5-3, to be tested for the property test.

Embodiment 3

The buffer bar 6-5-3 and reference examples that Examples 1 to 2 is prepared same component obtained carry out using effect pair Than.The two heat distortion temperature, compression strength, bending stiffness, corrosion rate are counted, the results are shown in Table 1.

As seen from Table 1, buffer bar 6-5-3 of the present invention, above-mentioned performance indicator are superior to prior art production Product.

Embodiment 4

Three fluoro acetamide moieties accounting of N- methyl-N- (trimethyl silyl) -2,2,2- is studied to buffer bar 6-5-3 performance Influence.Change three fluoro acetamide volume of N- methyl-N- (trimethyl silyl) -2,2,2- be total amount 10%, 20%, 30%, 40%, using buffer bar 6-5-3 fatigue resistance gaining rate as evaluation index.Resist from heretofore described buffer bar 6-5-3 tired Labor intensity gaining rate and N- methyl-N- (trimethyl silyl) -2 find out in 2,2- tri- fluoro acetamide volume relational graphs, N- first Base-N- (trimethyl silyl) -2, the content of 2,2- tri- fluoro acetamides have its material fatigue resistance gaining rate important Influence, the variation of content directly affects properties of product.

Claims (10)

1. one kind is for bagged material conveying equipment in horizontal mining construction, comprising: bracket (1), driving motor (2), revolving speed pass Sensor (3), retarder (4) limit rail device (5), transmission belt (6), brake (7), curve track (8), electrical control cabinet (9)； It is characterized in that, the bracket (1) is equipped with curve track (8), bracket (1) is threadedly coupled with curve track (8), wherein bracket (1) quantity is not less than 5；The curve track (8) is equipped with transmission belt (6), and transmission belt (6) and curve track (8) sliding connect It connects；Curve track (8) the end side is equipped with driving motor (2) and retarder (4), and curve track (8) end other side is set There are brake (7)；Retarder (4) is threadedly coupled with curve track (8), and wherein retarder (4) one end center is equipped with revolution speed sensing Device (3)；The limit rail device (5) is located at curve track (8) top, and limit rail device (5) is threadedly coupled with curve track (8), Middle limit rail device (5) quantity is not less than 5；The electrical control cabinet (9) is placed in curve track (8) bottom, electrical control cabinet (9) It is connected by conducting wire with driving motor (2) and speed probe (3) control.

2. according to claim 1 a kind of for bagged material conveying equipment in horizontal mining construction, which is characterized in that institute Stating bracket (1) includes: carriage drive motor (1-1), change gear box (1-2), and built-in gear (1-3) contains rack gear sliding rail (1-4), rack shell (1-5), fixed block (1-6), L-type sliding block (1-7)；The rack shell (1-5) is located at bracket (1) pedestal Top, rack shell (1-5) is vertical with bracket (1) pedestal and is fixedly connected, rack shell (1-5) be hollow structure；It is described It is set to the inside rack shell (1-5) containing rack gear sliding rail (1-4), it is vertical with bracket (1) pedestal containing rack gear sliding rail (1-4) and solid Fixed connection；The L-type sliding block (1-7) is arranged in containing the side rack gear sliding rail (1-4), and L-type sliding block (1-7) is internal equipped with built-in Gear (1-3)；The built-in gear (1-3) engages connection with containing rack gear sliding rail (1-4)；The L-type sliding block (1-7) passes through Built-in gear (1-3) is realized and being slidably connected containing rack gear sliding rail (1-4) with engaging containing rack gear sliding rail (1-4)；Institute It states fixed block (1-6) and is located at the top L-type sliding block (1-7), fixed block (1-6) is fixedly connected with curve track (8) outer wall；The change Fast gear-box (1-2) is arranged in the side L-type sliding block (1-7), and change gear box (1-2) and built-in gear (1-3) are sequentially connected； The carriage drive motor (1-1) is located at the lower end side change gear box (1-2), carriage drive motor (1-1) and transmission gear Case (1-2) transmission connection, carriage drive motor (1-1) are connected by conducting wire with electrical control cabinet (9) control.

3. according to claim 2 a kind of for bagged material conveying equipment in horizontal mining construction, which is characterized in that institute Stating retarder (4) includes: friction belt controller (4-1), friction belt (4-2), rotating disc (4-3), and rotation axis (4-4) is rubbed It wipes belt tensioner (4-5), rotation axis cooling water tank (4-6)；The rotating disc (4-3) is arranged in rotation axis (4-4) one End, rotating disc (4-3) are fixed by the bracket with rotation axis (4-4) and connect；The friction belt (4-2) is wound in rotating disc (4- 3) on, one end of friction belt (4-2) and friction belt controller (4-1) control are connected；The friction belt controller (4-1) It is connected by conducting wire with electrical control cabinet (9)；The friction belt slack adjuster (4-5) is located at the side rotating disc (4-3), rubs The front end for wiping belt tensioner (4-5) is connected with the friction belt (4-2) on the top rotating disc (4-3), and friction belt is elastic The lower end of adjuster (4-5) is connected with friction belt controller (4-1)；The rotation axis cooling water tank (4-6) is set to rotation axis In the middle part of (4-4) and the two connects.

4. according to claim 3 a kind of for bagged material conveying equipment in horizontal mining construction, which is characterized in that institute Stating limit rail device (5) includes: fixed block (5-1), horizontal supporting rod (5-2), vertical slide bar (5-3), horizontal sliding bar (5-4), is hung down Straight supporting rod (5-5), gag lever post (5-6), horizontal slider (5-7), vertical slipper (5-8)；Fixed block (5-1) quantity is 2 It is a, vertical slide bar (5-3) is equipped on each fixed block (5-1)；The vertical slide bar (5-3) is equipped with vertical slipper (5-8), Vertical slipper (5-8) quantity is 2, and vertical slipper (5-8) is slidably connected with vertical slide bar (5-3), wherein each vertical slipper It is equipped on (5-8) horizontal supporting rod (5-2), horizontal supporting rod (5-2) is slidably connected with vertical slipper (5-8)；The level Slide bar (5-4) is located at the top vertical slide bar (5-3), and horizontal sliding bar (5-4) is fixedly connected with vertical slide bar (5-3)；The level Slide bar (5-4) is equipped with horizontal slider (5-7), and horizontal slider (5-7) is slidably connected with horizontal sliding bar (5-4), horizontal slider (5- 7) quantity is 3, wherein being arranged with vertical supporting rod (5-5) on each horizontal slider (5-7)；Horizontal supporting rod (the 5- 2) and it is equipped with gag lever post (5-6) on vertical supporting rod (5-5), wherein gag lever post (5-6) quantity is no more than 5.

5. according to claim 4 a kind of for bagged material conveying equipment in horizontal mining construction, which is characterized in that institute Stating fixed block (5-1) includes: fixed block pedestal (5-1-1), bail regulating device (5-1-2), bail outer tube (5-1-3), card It follows closely (5-1-4), fixed ring adjuster (5-1-5), bail fixed ring (5-1-6), fixed ring connecting rod (5-1-7)；The fixed block Pedestal (5-1-1) is located at the side bail fixed ring (5-1-6), and fixed block pedestal (5-1-1) passes through with bail fixed ring (5-1-6) Fixed ring connecting rod (5-1-7) is fixedly connected；The bail fixed ring (5-1-6) is arranged in vertical slide bar (5-3) bottom, and bail is solid The diameter for determining ring (5-1-6) is greater than the diameter of vertical slide bar (5-3)；The vertical slide bar (5-3) and bail fixed ring (5-1-6) Center is vertical, and vertical slide bar (5-3) is the hollow structure of diameter 8cm~12cm；The bail outer tube (5-1-3) is set to bail In fixed ring (5-1-6), bail outer tube (5-1-3) is fixedly connected with bail fixed ring (5-1-6), bail outer tube (5-1- 3) quantity is 3, and adjacent bail outer tube (5-1-3) is equally spaced using the center of circle of bail fixed ring (5-1-6) as center axis, And the angle between adjacent bail outer tube (5-1-3) is 120 °, the rear and front end of each bail outer tube (5-1-3) respectively with Bail (5-1-4) and bail regulating device (5-1-2) connection；Work of the bail (5-1-4) in bail regulating device (5-1-2) Vertical slide bar (5-3) is fixed with lower；The fixed ring adjuster (5-1-5) is connected to bail fixed ring (5-1-6) outside Wall side.

6. according to claim 5 a kind of for bagged material conveying equipment in horizontal mining construction, which is characterized in that institute Stating horizontal supporting rod (5-2) includes: built-in motor (5-2-1), supporting rod butt end (5-2-2), fan shaft (5-2-3), clamping Bar air inlet (5-2-4), supporting rod built-in fans (5-2-5), supporting rod taper end (5-2-6), supporting rod gas outlet (5-2-7)； The supporting rod butt end (5-2-2) is arranged on the right side of entire horizontal supporting rod (5-2), and the diameter of supporting rod butt end (5-2-2) is 15cm~25cm；The fan shaft (5-2-3) is horizontally disposed internal in supporting rod butt end (5-2-2), fan shaft (5-2-3) One end and built-in motor (5-2-1) be rotatablely connected；The built-in motor (5-2-1) is controlled by conducting wire and electrical control cabinet (9) System is connected；The supporting rod air inlet (5-2-4) is located in the middle part of fan shaft (5-2-3) and the two is fixedly connected, supporting rod into The quantity of port (5-2-4) is 4, and adjacent supporting rod air inlet (5-2-4) is angularly distributed along fan shaft (5-2-3)；Institute It states supporting rod built-in fans (5-2-5) and is located at the both ends fan shaft (5-2-3), supporting rod built-in fans (5-2-5) and fan turn Axis (5-2-3) is fixedly connected；The supporting rod taper end (5-2-6) is arranged on the left of entire horizontal supporting rod (5-2), and supporting rod is thin End (5-2-6) is fixedly welded and is mutually communicated with supporting rod butt end (5-2-2), and the diameter of supporting rod taper end (5-2-6) is 10cm ~15cm；The supporting rod gas outlet (5-2-7) is set to the one end supporting rod taper end (5-2-6).

7. according to claim 6 a kind of for bagged material conveying equipment in horizontal mining construction, which is characterized in that institute Stating gag lever post (5-6) includes: oil cylinder left chamber (5-6-1), oil cylinder piston (5-6-2), right cavity of cylinder room (5-6-3), mobile bar (5-6-4), right end oil syringe (5-6-5), oil syringe communicating pipe (5-6-6), left end oil syringe (5-6-7), gag lever post oil pump (5- 6-8), left end fuel feed hole (5-6-9), right end fuel feed hole (5-6-10)；The mobile bar (5-6-4) is located in gag lever post (5-6) Portion, the diameter of mobile bar (5-6-4) are less than the diameter of gag lever post (5-6)；The oil cylinder piston (5-6-2) is set to mobile bar (5- 6-4) top, oil cylinder piston (5-6-2) are fixedly connected with mobile bar (5-6-4), oil cylinder piston (5-6-2) and gag lever post (5-6) Inner wall is slidably connected；The right cavity of cylinder room (5-6-3) is located at oil cylinder piston (5-6-2) right part, and right cavity of cylinder room (5-6-3) is Channel between mobile bar (5-6-4) and gag lever post (5-6) inner wall；The oil cylinder left chamber (5-6-1) is located at oil cylinder piston (5- 6-2) left part；The left end oil syringe (5-6-7) is arranged in gag lever post (5-6) top side, and left end oil syringe (5-6-7) passes through Left end fuel feed hole (5-6-9) is connected with oil cylinder left chamber (5-6-1) perforation, and left end oil syringe (5-6-7) is by conducting wire and electrically Control cabinet (9) control connection；The gag lever post oil pump (5-6-8) is connected to the side left end oil syringe (5-6-7), gag lever post oil pump (5-6-8) is connected by conducting wire with electrical control cabinet (9) control；The right end oil syringe (5-6-5) is arranged in gag lever post (5-6) Bottom side, right end oil syringe (5-6-5) are connected by right end fuel feed hole (5-6-10) and right cavity of cylinder room (5-6-3) perforation, Right end oil syringe (5-6-5) is connected by conducting wire and electrical control cabinet (9) control；The oil syringe communicating pipe (5-6-6) is fixed It is connected between left end oil syringe (5-6-7) and right end oil syringe (5-6-5), the both ends difference of oil syringe communicating pipe (5-6-6) It is penetrated through with left end fuel feed hole (5-6-9) and right end fuel feed hole (5-6-10).

8. according to claim 7 a kind of for bagged material conveying equipment in horizontal mining construction, which is characterized in that institute Stating left end oil syringe (5-6-7) includes: oil syringe oil inlet (5-6-7-1), filter (5-6-7-2), oil syringe paddle (5- 6-7-3), oil syringe solenoid valve (5-6-7-4), oil syringe rotator (5-6-7-5), safety valve (5-6-7-6)；The oil syringe Oil inlet (5-6-7-1) is located on the right side of left end oil syringe (5-6-7), oil syringe oil inlet (5-6-7-1) and gag lever post oil pump (5- 6-8) perforation connection；The filter (5-6-7-2) is horizontally disposed at left end oil syringe (5-6-7) inside center, filter The one end of (5-6-7-2) and left end fuel feed hole (5-6-9) perforation connect, filter (5-6-7-2) other end and oil syringe oil inlet The distance between mouth (5-6-7-1) is 8cm~10cm；The oil syringe rotator (5-6-7-5) is connected to left end oil syringe (5- 6-7) inside left, oil syringe rotator (5-6-7-5) are connected by conducting wire with electrical control cabinet (9) control；The oil syringe Paddle (5-6-7-3) is set to the side filter (5-6-7-2), oil syringe paddle (5-6-7-3) and oil syringe rotator (5- 6-7-5) it is fixedly connected；The quantity of the oil syringe solenoid valve (5-6-7-4) is 2, one of oil syringe solenoid valve (5-6- It 7-4) is connected to the top left end fuel feed hole (5-6-9), another oil syringe solenoid valve (5-6-7-4) is connected to oil syringe communicating pipe The top (5-6-6), oil syringe solenoid valve (5-6-7-4) are connected by conducting wire and electrical control cabinet (9) control；The safety valve (5-6-7-6) is fixedly connected on left end oil syringe (5-6-7) left hand external.

9. according to claim 8 a kind of for bagged material conveying equipment in horizontal mining construction, which is characterized in that institute Stating transmission belt (6) includes: loading plate (6-1), and connecting hole (6-2) is connected groove (6-3), sliding slot (6-4), connector (6-5), It is connected boss (6-6)；Loading plate (6-1) two sides are equipped with sliding slot (6-4), and sliding slot (6-4) and curve track (8) sliding connect It connects；The loading plate side (6-1) is equipped with linking groove (6-3), and the other side is equipped with linking boss (6-6), wherein being connected groove It is equipped on (6-3) connecting hole (6-2), is equipped with connector (6-5) inside linking boss (6-6)；

The sliding slot (6-4) includes: guide rail fixing bolt (6-4-1), guide rail upright columns (6-4-2), guide rail base (6-4-3), guide rail Crossbeam (6-4-4), sliding slot shell (6-4-5)；The sliding slot shell (6-4-5) is hollow rectangular parallelepiped structure；The guide rail base Seat (6-4-3) is fixedly connected with sliding slot shell (6-4-5) wall, and the quantity of guide rail base (6-4-3) is 2, adjacent rails base The distance between seat (6-4-3) is 2cm~5cm；The guide rail beam (6-4-4) is parallel with guide rail base (6-4-3), and guide rail is horizontal It is fixedly connected between beam (6-4-4) and guide rail base (6-4-3) by guide rail upright columns (6-4-2)；Guide rail fixing bolt (the 6-4- 1) in sliding slot shell (6-4-5) wall upper and lower ends, guide rail fixing bolt (6-4-1) and sliding slot shell (6-4-5) wall Threads turn connection；

The connector (6-5) includes: connecting shaft (6-5-1), spring (6-5-2), buffer bar (6-5-3), spring fixing groove (6- 5-4)；The connecting shaft (6-5-1) is equipped with buffer bar (6-5-3), and buffer bar (6-5-3) shares two groups, and every group of quantity is 2 A, wherein buffer bar (6-5-3) is equipped with spring fixing groove (6-5-4)；The spring fixing groove (6-5-4) is equipped with spring (6-5-2), each spring fixing groove (6-5-4) upper spring (6-5-2) quantity are 9；

The brake (7) includes: brake bracket (7-1), hydraulic tongs (7-2), brake block (7-3), radiator fan (7-4), Brake casing (7-5) brakes transmission shaft (7-6)；The brake bracket (7-1) is connected to brake two sides transmission shaft (7-6) Lower part, the quantity of brake bracket (7-1) is 2, every side brake bracket (7-1) away from brake casing (7-5) outer wall away from From for 8cm~10cm；The brake transmission shaft (7-6) is internal horizontal through brake casing (7-5)；The brake block (7-3) It is internal positioned at brake casing (7-5), and brake block (7-3) is fixedly and coaxially connected with brake transmission shaft (7-6), brake block (7- 3) circular configuration for being thickness 10mm~20mm；The hydraulic tongs (7-2) are arranged in the two sides brake block (7-3), hydraulic tongs (7-2) It is connected by conducting wire with electrical control cabinet (9), hydraulic tongs (7-2) are tight with brake block (7-3) under the control of electrical control cabinet (9) Close pressing；The radiator fan (7-4) is set to brake one end transmission shaft (7-6), radiator fan (7-4) and brake transmission shaft (7- 6) it is fixedly and coaxially connected, the quantity of radiator fan (7-4) is 2；

One kind is for bagged material conveying equipment in horizontal mining construction, the device working method including the following steps:

Step 1: in a kind of whole device for bagged material conveying equipment in horizontal mining construction, staff is by the dress After the completion of setting installation fixation, electrical control cabinet (9) power supply is connected, presses start button, electrical control cabinet (9) controls driving motor (2) start and drive transmission belt (6) operating by retarder (4)；In transmission belt (6) operation process, speed probe (3) is real When monitor transmission belt (6) velocity of displacement, and generate electric signal transmission to electrical control cabinet (9), electrical control cabinet (9) is according to revolving speed Sensor (3) feedback information real-time control driving motor (2) revolving speed maintains transmission belt (6) running speed near setting value；When When needing emergency brake in transmission belt (6) operation process, staff presses scram button, electrical control cabinet (9) control driving Motor (2) shuts down, while controlling brake (7) starting, carries out emergency brake to the transmission belt (6) in operating；

Step 2: in bracket (1) operation process, powering on and start electrical control cabinet (9), electrical control cabinet (9) control branch Frame driving motor (1-1) is operated, and drives built-in gear (1-3) rotation by change gear box (1-2),

And then built-in gear (1-3) is promoted to engage with containing rack gear sliding rail (1-4), above and below realization L-type sliding block (1-7) It is mobile；

Step 3: in retarder (4) operation process, friction belt controller (4-1) is under the control of electrical control cabinet (9) pair Friction belt (4-2) is implemented to tense, and to realize that friction belt (4-2) is closely wound the rotating disc (4-3) of operating, realization subtracts Speed；Meanwhile rotation axis cooling water tank (4-6) cools down the retarder (4) operated；

Step 4: being the process of conveying products in limit rail device (5) operation process, when every batch of product size difference, work Make personnel to need that limit rail device (5) is adjusted；Staff passes through first adjusts horizontal slider (5-7) and vertical slipper (5-8) realizes the variation of horizontal supporting rod (5-2) and the relative position vertical supporting rod (5-5) respectively, and then by adjusting water The variation for the overhang that flat supporting rod (5-2) and vertical supporting rod (5-5) are realized, the position for being finally completed gag lever post (5-6) become It is dynamic；

Step 5: in fixed block (5-1) operation process, bail (5-1-4) is real by the effect of bail regulating device (5-1-2) Now to the fixation of vertical slide bar (5-3) with loosen；Meanwhile bail fixed ring (5-1- is realized by fixed ring adjuster (5-1-5) 6) flexible；

Step 6: in horizontal supporting rod (5-2) operation process, wind enters horizontal supporting rod from supporting rod air inlet (5-2-4) (5-2) is internal；Meanwhile built-in motor (5-2-1) is operated under the control that electrical control cabinet (9) controls, and drives fan The rotation of shaft (5-2-3) and supporting rod built-in fans (5-2-5), and then radiate to horizontal supporting rod (5-2)；Then, Hot wind is discharged from the supporting rod gas outlet (5-2-7) of the one end supporting rod taper end (5-2-6)；

Step 7: in gag lever post (5-6) operation process, electrical control cabinet (9) control gag lever post oil pump (5-6-8) is operated； Meanwhile electrical control cabinet (9) control left end oil syringe (5-6-7) and right end oil syringe (5-6-5) is on and off；Work as left end It is oily from left end fuel feed hole (5- when oil syringe (5-6-7) is in the open state and right end oil syringe (5-6-5) is in close state 6-9) enter oil cylinder left chamber (5-6-1), oil cylinder piston (5-6-2) and mobile bar (5-6-4) is promoted to move right；When right end is infused When oily device (5-6-5) is in the open state and left end oil syringe (5-6-7) is in close state, oil passes through oil syringe communicating pipe (5-6-6) enters right cavity of cylinder room (5-6-3) from right end fuel feed hole (5-6-10), promotes oil cylinder piston (5-6-2) and mobile bar (5-6-4) is moved downward；

Step 8: in left end oil syringe (5-6-7) operation process, oil enters left end oiling from oil syringe oil inlet (5-6-7-1) Device (5-6-7) is internal；Meanwhile oil syringe rotator (5-6-7-5) is operated under the control of electrical control cabinet (9), in turn The rotation of oil syringe paddle (5-6-7-3) is driven, realizes the stirring to oil；Later, two oil syringe solenoid valves (5-6-7-4) It is opened or closed under the control of electrical control cabinet (9), realizes the different flow direction flowings of oil；

Step 9: in transmission belt (6) operation process, it is located at transmission belt (6) internal connector (6-5) and ensures each carrying The even running of plate (6-1)；

Step 10: in sliding slot (6-4) operation process, each device in sliding slot (6-4) ensures transmission belt (6) in curve rail Steadily sliding on road (8)；

Step 11: in connector (6-5) operation process, when loading plate (6-1) moves at curve bend, wherein one group slow Spring (6-5-2) forced compression on jumper bar (6-5-3), spring (6-5-2) stress on another group of buffer bar (6-5-3) are drawn It stretches, and connecting shaft (6-5-1) is transferred to by the effect of power, realize being stably connected with and steadily for two neighboring loading plate (6-1) Operation；

Step 12: in brake (7) operation process, after powering on, hydraulic tongs are controlled by starting electrical control cabinet (9) The running of (7-2) realizes the close pressing of two sides hydraulic tongs (7-2) to brake block (7-3), forces brake block (7-3) and brake Transmission shaft (7-6) stops operating, and finally realizes the urgent stop of transmission belt (6).

10. according to claim 9 a kind of for bagged material conveying equipment in horizontal mining construction, which is characterized in that The buffer bar (6-5-3) is formed by high molecular material pressing mold, buffer bar (6-5-3) by mass percentage, by organizing grouping as follows At:

Three fluoro acetamide 2~11% of N- methyl-N- (trimethyl silyl) -2,2,2-；

Purify lake water 3~13%；

CSA set-accelerating admixture 7~85%；

4,4- [(1- methyl ethylidene) two (4,1- phenylene oxygen)] diphenylamines 4~95%；

Diphenylguanidine PG 3~39%；

Strontium nanoparticle 9~19%；

Promote catalyst D 8~68%；

The CSA set-accelerating admixture is the derivative of siloxanes, molecular characterization are as follows:

Wherein, R is alkyl, is 1~44 carbon atom；

The diphenylguanidine PG is the derivative of silane, molecular structural formula are as follows:

Wherein, the molecular structural formula of X group are as follows:

The group Molecule formula are as follows: C7H13N1O3P；

The derivative for promoting catalyst D as butyrate, molecular structural formula are as follows:

Wherein, the molecular structural formula of B group are as follows:

Its molecular formula are as follows: C12H14O4；

The manufacturing method of buffer bar (6-5-3) is:

Step 1: three fluoro of N- methyl-N- (trimethyl silyl) -2,2,2- in component will be matched according to mass percent Acetamide is added in three kettles series connection stirring reactor tank, while purifying lake water is added, starting three kettles series connection stirring reactor Blender in tank, setting speed are 5rpm~50rpm；

Step 2: after three kettles are connected the operating of stirring reactor tank 3~13 minutes, CSA set-accelerating admixture and 4,4- [(1- first is added Base ethylidene) two (4,1- phenylene oxygen)] diphenylamines, start the steam conduction heating in three kettles series connection stirring reactor tank Device makes temperature rise to 7 DEG C~85 DEG C, and diphenylguanidine PG and strontium nanoparticle is added, and stirs in three kettles series connection stirring reactor tank It mixes uniformly, obtains the homogenate of I component；

Step 3: the promotion catalyst D in proportion component is weighed according to mass percent, is homogenized and is mixed with I component, again The steam conduction heaters started in three kettles series connection stirring reactor tank keep the temperature 2~39 points controlled at 4 DEG C~95 DEG C Clock discharges into molding press to get to buffer bar (6-5-3).