CN208865552U - A kind of hot melt type gage mark coating production equipment - Google Patents

Abstract

The utility model relates to a kind of hot melt type gage mark coating production equipments, including shell, dedusting mechanism and rabbling mechanism are equipped in shell, dedusting mechanism includes funnel, first dust removal assembly, two guide plates, two friction components and two the second dust removal assemblies, first dust removal assembly includes riser and two the first dust removing units, first dust removing units include at least two first friction pulleys, second dust removal assembly includes fixed plate and at least two second friction pulleys, friction component includes telescopic unit and friction block, the hot melt type gage mark coating production equipment, the dust on raw material can be adsorbed by electrostatic while playing guiding role to raw material by dedusting mechanism, so as to improve the practicability of the gage mark coating production equipment, the stirring of vertical direction is carried out to raw material by rabbling mechanism, further improve the gage mark coating production equipment Stirring efficiency, so that the practicability of the gage mark coating production equipment is stronger.

Description

A kind of hot melt type gage mark coating production equipment

Technical field

The utility model relates to gage mark coating field, in particular to a kind of hot melt type gage mark coating production equipment.

Background technique

Hot melt gage mark coating is coated on road, for indicating a kind of coating of roadmarking.Heat reflective type graticule Coating is mainly used on 2 grades or more of highway and highway, and the graticule coating layer thickness that this coating is drawn is 1.0~2.5mm, Reflecting glass Bead is mixed in coating, and when crossing construction, reflecting glass Bead is spread in face.

For existing gage mark coating production equipment when feeding intake according to technique requirement sequence, the dust on raw material will be with raw material Into agitating procedure, the quality of coating is caused to substantially reduce, so that the practicability of existing gage mark coating production equipment is reduced, Moreover, existing gage mark coating production equipment is driven the mixing of material by the agitation of horizontal direction, made in stirring It obtains mixing effect to substantially reduce, to reduce the convenience of existing gage mark coating production equipment.

Utility model content

Technical problem to be solved by the utility model is: for overcome the deficiencies in the prior art, providing a kind of heat molten type mark Line paint production plant.

The technical scheme adopted by the utility model to solve the technical problem is as follows: a kind of hot melt type gage mark coating production is set It is standby, including shell, the shell is interior to be equipped with dedusting mechanism and rabbling mechanism, and top inside the shell is arranged in the dedusting mechanism, The lower section of dedusting mechanism is arranged in the rabbling mechanism；

The dedusting mechanism includes that funnel, the first dust removal assembly, two guide plates, two friction components and two second remove Dirt component, the funnel is horizontally disposed inside the shell, and two guide plates are inclined at the two sides of funnel respectively, and the funnel is logical It crosses guide plate to be fixedly connected with the inner wall of shell, the lower section of funnel, two the second dedusting groups are arranged in first dust removal assembly Part is separately positioned on the two sides of the lower section of funnel, and two friction components are respectively positioned on the top of funnel, and the friction component setting exists Top in shell；

First dust removal assembly includes riser and two the first dust removing units, and the riser is vertically fixed under funnel Side, two the first dust removing units are separately positioned on the two sides of riser；

First dust removing units include at least two first friction pulleys, and each first friction pulley is evenly distributed on from top to bottom On riser, first friction pulley and riser are hinged；

Second dust removal assembly includes fixed plate and at least two second friction pulleys, and the fixed plate is vertically fixed on leakage The side of the lower section of bucket, each second friction pulley are evenly distributed on the side of the close riser of fixed plate from top to bottom, and described second Friction pulley is hinged with fixed plate, and the making material of first friction pulley and the making material of the second friction pulley are acrylic；

The friction component includes telescopic unit and friction block, and the top of the telescopic unit setting inside the shell is described The lower section of telescopic unit is arranged in friction block, and the telescopic unit driving friction block lifting, the friction block surface is equipped with silk；

The rabbling mechanism includes first motor, transmission component and at least two driven subassemblies, and the first motor is horizontal Be fixed on the inner wall of shell, the first motor is connect with transmission component, and the transmission component is connect with driven subassembly, respectively from Dynamic component is evenly distributed on transmission component；

The driven subassembly includes driven wheel and two agitating units, and the driven wheel is vertically arranged, the first motor Driven wheel rotation is driven by transmission component, two agitating units are separately positioned on above and below driven wheel, described driven The vertical cross-section of wheel is circle, center of circle central symmetry of two agitating units about the circular cross-section of driven wheel；

The agitating unit includes drive rod, follower lever, limited block and agitating plate, one end of the drive rod and driven wheel Separate the center point it is hinged, the other end of the drive rod and one end of follower lever are hinged, the other end of the follower lever with stir It mixes plate to be fixedly connected, the limited block is fixed on the inner wall of shell, and the limited block is set on follower lever, the limited block It is slidably connected with follower lever.

Preferably, in order to more stably drive friction block, the telescopic unit includes driving unit, connecting plate, stretches Frame, locating rod, two drive blocks, two sliding blocks and two support plates, the top of the driving unit setting inside the shell are described Connecting plate is located at the lower section of driving unit, and the connecting plate is equipped with strip-shaped hole, and two drive blocks are arranged in strip-shaped hole, institute It states drive block to be slidably connected with strip-shaped hole, the expansion bracket is vertically arranged, and the locating rod is horizontally disposed, and two sliding blocks are arranged On the securing lever, the sliding block is slidably connected with locating rod, and the two sides on the top of the expansion bracket are cut with scissors with two drive blocks respectively It connects, the two sides of the bottom end of the expansion bracket are hinged with two sliding blocks respectively, and two support plates are vertically fixed on locating rod respectively Both ends, the friction block are fixed on the lower section of two support plates.

Preferably, in order to more accurately drive drive block, the driving unit includes air pump, cylinder barrel, piston rod and company Block is connect, the air pump is fixedly connected with one of drive block, and the link block is fixedly connected with another drive block, the gas The fixed top inside the shell of pump, the cylinder barrel are horizontally set between air pump and link block, the air pump and the fixed company of cylinder barrel It connects, the air pump is connected to cylinder barrel, and the piston rod is horizontally disposed, and one end of the piston rod is arranged in cylinder barrel, the work The other end of stopper rod is fixedly connected with link block.

Preferably, the link block and drive block are one in order to keep the connection between link block and drive block stronger Forming structure.

Preferably, in order to improve the driving precision of first motor, the first motor is servo motor.

Preferably, in order to more accurately drive driven wheel, the transmission component includes transmission belt and at least two transmissions Wheel, the quantity of the driving wheel and the quantity of driven subassembly are equal, and the driving wheel and driven subassembly correspond, the transmission Wheel is coaxially disposed with driven wheel, and each driving wheel is successively evenly distributed on the inner wall of shell, the inner wall of the driving wheel and shell Hingedly, the first motor and one of driving wheel are sequentially connected, and each driving wheel is sequentially connected by transmission belt.

Preferably, in order to keep the transmission between limited block and follower lever more smooth, the limited block and follower lever gap Cooperation.

Preferably, in order to accelerate the efficiency of electrostatic generation, the width of the friction block is slightly larger than positioned at the ipsilateral of riser The first friction pulley and the distance between the second friction pulley.

Preferably, in order to improve the stability of transmission belt, the driving wheel is equipped with annular groove, the transmission belt setting In a ring groove.

Preferably, in order to extend the service life of agitating plate, the making material of the agitating plate is stainless steel.

The utility model has the beneficial effects that the hot melt type gage mark coating production equipment, plays raw material by dedusting mechanism The dust on raw material can be adsorbed by electrostatic while to guiding role, so as to improve the gage mark coating production equipment Practicability, compared with existing dedusting mechanism, the first dust removal assembly, the second dust removal assembly and the friction component of the dedusting mechanism Equal independent operating carries out the stirring of vertical direction by rabbling mechanism so that the operational efficiency of the dedusting mechanism is higher to raw material, The stirring efficiency of the gage mark coating production equipment is further improved, so that the practicability of the gage mark coating production equipment is more By force, compared with existing rabbling mechanism, which drives each driven subassembly to run simultaneously by transmission component, so that this is stirred The operational efficiency for mixing mechanism is higher.

Detailed description of the invention

The present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 is the structural schematic diagram of the hot melt type gage mark coating production equipment of the utility model；

Fig. 2 is funnel, the first dust removal assembly, the guide plate and of the hot melt type gage mark coating production equipment of the utility model The attachment structure schematic diagram of two dust removal assemblies；

Fig. 3 is the structural schematic diagram of the rabbling mechanism of the hot melt type gage mark coating production equipment of the utility model；

Fig. 4 is the structural schematic diagram of the transmission component of the hot melt type gage mark coating production equipment of the utility model；

Fig. 5 is the structural schematic diagram of the friction component of the hot melt type gage mark coating production equipment of the utility model；

In figure: 1. shells, 2. funnels, 3. guide plates, 4. risers, 5. first friction pulleys, 6. fixed plates, 7. second frictions Wheel, 8. friction blocks, 9. first motors, 10. driven wheels, 11. drive rods, 12. follower levers, 13. limited blocks, 14. agitating plates, 15. Connecting plate, 16. expansion brackets, 17. locating rods, 18. drive blocks, 19. sliding blocks, 20. support plates, 21. air pumps, 22. cylinder barrels, 23. is living Stopper rod, 24. transmission belts, 25. driving wheels.

Specific embodiment

The utility model is described in further detail presently in connection with attached drawing.These attached drawings are simplified schematic diagram, Only illustrate the basic structure of the utility model in a schematic way, therefore it only shows composition related with the utility model.

As shown in Figure 1, a kind of hot melt type gage mark coating production equipment, including shell 1, the shell 1 is interior to be equipped with dust removal machine The top in shell 1 is arranged in structure and rabbling mechanism, the dedusting mechanism, and the rabbling mechanism is arranged under dedusting mechanism Side；

The dust on raw material can be adsorbed by electrostatic while playing guiding role to raw material by dedusting mechanism, from And can be improved the practicability of the gage mark coating production equipment, compared with existing dedusting mechanism, the first of the dedusting mechanism is removed Dirt component, the second dust removal assembly and the equal independent operating of friction component pass through stirring so that the operational efficiency of the dedusting mechanism is higher Mechanism carries out the stirring of vertical direction to raw material, the stirring efficiency of the gage mark coating production equipment is further improved, to make The practicability for obtaining the gage mark coating production equipment is stronger, and compared with existing rabbling mechanism, which passes through transmission component Each driven subassembly is driven to run simultaneously, so that the operational efficiency of the rabbling mechanism is higher.

As shown in Figs. 1-2, the dedusting mechanism includes funnel 2, the first dust removal assembly, two guide plates, 3, two friction groups Part and two the second dust removal assemblies, the funnel 2 are horizontally set in shell 1, and two guide plates 3 are inclined at funnel respectively 2 two sides, the funnel 2 are fixedly connected by guide plate 3 with the inner wall of shell 1, and first dust removal assembly is arranged in funnel 2 Lower section, two the second dust removal assemblies are separately positioned on the two sides of the lower section of funnel 2, and two friction components are respectively positioned on funnel 2 The top in shell 1 is arranged in top, the friction component；

First dust removal assembly includes riser 4 and two the first dust removing units, and the riser 4 is vertically fixed on funnel 2 Lower section, two the first dust removing units are separately positioned on the two sides of riser 4；

First dust removing units include at least two first friction pulleys 5, and each first friction pulley 5 is uniformly distributed from top to bottom On riser 4, first friction pulley 5 and riser 4 are hinged；

Second dust removal assembly includes fixed plate 6 and at least two second friction pulleys 7, and the fixed plate 6 is vertically fixed In the side of the lower section of funnel 2, each second friction pulley 7 is evenly distributed on the side of the close riser 4 of fixed plate 6 from top to bottom, Second friction pulley 7 and fixed plate 6 are hinged, the making material of the making material of first friction pulley 5 and the second friction pulley 7 It is acrylic；

The friction component includes telescopic unit and friction block 8, and the top in shell 1, institute is arranged in the telescopic unit The lower section that telescopic unit is arranged in friction block 8 is stated, the telescopic unit driving friction block 8 is gone up and down, and 8 surface of friction block is equipped with Silk；

Before raw material investment, friction block 8 is driven to move down by telescopic unit, so that friction block 8 and the first friction Wheel 5 and the second friction pulley 7 rub, and generate electrostatic, and then, telescopic unit driving friction block 8 moves up, and can start to throw Raw material is put, guiding role can be played to raw material by the first friction pulley 5 and the second friction pulley 7, while passing through the first friction pulley 5 Dust can be adsorbed with the electrostatic on the second friction pulley 7.

As shown in figure 3, the rabbling mechanism includes first motor 9, transmission component and at least two driven subassemblies, described One motor 9 is horizontally fixed on the inner wall of shell 1, and the first motor 9 is connect with transmission component, the transmission component with it is driven Component connection, each driven subassembly are evenly distributed on transmission component；

The driven subassembly includes driven wheel 10 and two agitating units, and the driven wheel 10 is vertically arranged, and described first Motor 9 drives driven wheel 10 to rotate by transmission component, and two agitating units are separately positioned on above and below driven wheel 10, The vertical cross-section of the driven wheel 10 is circle, center of circle center pair of two agitating units about the circular cross-section of driven wheel 10 Claim；

The agitating unit includes drive rod 11, follower lever 12, limited block 13 and agitating plate 14, and the one of the drive rod 11 Hold it is hinged with the separate the center point of driven wheel 10, one end of the other end and follower lever 12 of the drive rod 11 is hinged, it is described from The other end of lever 12 is fixedly connected with agitating plate 14, and the limited block 13 is fixed on the inner wall of shell 1, the limited block 13 It is set on follower lever 12, the limited block 13 is slidably connected with follower lever 12；

First motor 9 drives driven wheel 10 to rotate by transmission component, drives follower lever 12 along limit by drive rod 11 Position block 13 moves back and forth, so that agitating plate 14 moves up and down, raw material is driven to mix in the vertical direction, so as to improve stirring Efficiency.

As shown in figure 5, the telescopic unit includes driving unit, connecting plate 15, expansion bracket 16, locating rod 17, two biographies The top in shell 1, the connecting plate 15 is arranged in 18, two sliding blocks 19 of motion block and two support plates 20, the driving unit Positioned at the lower section of driving unit, the connecting plate 15 is equipped with strip-shaped hole, and two drive blocks 18 are arranged in strip-shaped hole, described Drive block 18 is slidably connected with strip-shaped hole, and the expansion bracket 16 is vertically arranged, and the locating rod 17 is horizontally disposed, two sliding blocks 19 It is set in locating rod 17, the sliding block 19 is slidably connected with locating rod 17, the two sides difference on the top of the expansion bracket 16 Hinged with two drive blocks 18, the two sides of the bottom end of the expansion bracket 16 are hinged with two sliding blocks 19 respectively, two support plates 20 It is vertically fixed on the both ends of locating rod 17 respectively, the friction block 8 is fixed on the lower section of two support plates 20, driving unit driving Two drive blocks 18 move backward, and drive the elongation of expansion bracket 16 by two sliding blocks 19 or shrink, are rubbed by the drive of support plate 20 Cleaning block 8 moves up and down, since sliding block 19 is supported the position-limiting action of plate 20 in sliding process, so as to more stably drive Dynamic friction block 8.

As shown in figure 5, the driving unit includes air pump 21, cylinder barrel 22, piston rod 23 and link block, the air pump 21 with One of drive block 18 is fixedly connected, and the link block is fixedly connected with another drive block 18, and the air pump 21 is fixed on Top in shell 1, the cylinder barrel 22 are horizontally set between air pump 21 and link block, the air pump 21 and the fixed company of cylinder barrel 22 It connects, the air pump 21 is connected to cylinder barrel 22, and the piston rod 23 is horizontally disposed, and one end of the piston rod 23 is arranged in cylinder barrel 22 Interior, the other end of the piston rod 23 is fixedly connected with link block, and air pump 21 and cylinder barrel 22 pass through pressure difference driving piston rod 23 Piston motion is done, drives two drive blocks 18 to move backward by link block, the size by controlling pressure difference can be accurately The stroke of piston rod 23 is controlled, so as to more accurately drive drive block 18.

Preferably, in order to keep the connection between link block and drive block 18 stronger, the link block and drive block 18 It is an integral molding structure.

Preferably, in order to improve the driving precision of first motor 9, the first motor 9 is servo motor.

Preferably, the transmission component includes transmission belt 24 and at least two in order to more accurately drive driven wheel 10 The quantity of driving wheel 25, the driving wheel 25 is equal with the quantity of driven subassembly, and the driving wheel 25 and driven subassembly one are a pair of It answers, the driving wheel 25 is coaxially disposed with driven wheel 10, and each driving wheel 25 is successively evenly distributed on the inner wall of shell 1, described Driving wheel 25 and the inner wall of shell 1 are hinged, and the first motor 9 is sequentially connected with one of driving wheel 25, each driving wheel 25 It is sequentially connected by transmission belt 24, first motor 9 drives one of driving wheel 25 to rotate, and drives others by transmission belt 24 Driving wheel 25 rotates synchronously, so that driven wheel 10 rotates synchronously, the rotational angle by controlling driving wheel 25 can be controlled accurately The rotational angle of driven wheel 10 processed, so as to more accurately drive driven wheel 10.

Preferably, in order to keep the transmission between limited block 13 and follower lever 12 more smooth, the limited block 13 with it is driven 12 clearance fit of bar, can reduce the frictional force between limited block 13 and follower lever 12, so as to make limited block 13 with it is driven Transmission between bar 12 is more smooth.

Preferably, in order to accelerate the efficiency of electrostatic generation, the width of the friction block 8 is slightly larger than positioned at the same of riser 4 The distance between first friction pulley 5 and the second friction pulley 7 of side can increase friction block 8 and the first friction pulley 5 and the second friction Interaction force between wheel 7, improves the frictional force between friction block 8 and the first friction pulley 5 and the second friction pulley 7, thus It can accelerate the efficiency of electrostatic generation.

Preferably, in order to improve the stability of transmission belt 24, the driving wheel 25 is equipped with annular groove, the transmission belt 24 settings are in a ring groove.

Preferably, in order to extend the service life of agitating plate 14, the making material of the agitating plate 14 is stainless steel.

Guiding role is played to raw material by the first dust removal assembly and the second dust removal assembly, while passing through friction component friction First dust removal assembly and the second dust removal assembly, to be adsorbed the dust on raw material by electrostatic, so as to improve the graticule The practicability of paint production plant, compared with existing dedusting mechanism, the first dust removal assembly of the dedusting mechanism, the second dedusting group Part and the equal independent operating of friction component, so that the operational efficiency of the dedusting mechanism is higher, first motor 9 is driven by transmission component Each driven subassembly carries out the stirring of vertical direction to raw material, further improves the stirring efficiency of the gage mark coating production equipment, So that the practicability of the gage mark coating production equipment is stronger, compared with existing rabbling mechanism, which passes through biography Dynamic component drives each driven subassembly synchronous operation, so that the operational efficiency of the rabbling mechanism is higher.

Compared with prior art, the hot melt type gage mark coating production equipment plays guiding to raw material by dedusting mechanism and makees With while can by electrostatic by raw material dust adsorb, so as to improve the practical of the gage mark coating production equipment Property, compared with existing dedusting mechanism, the first dust removal assembly of the dedusting mechanism, the second dust removal assembly and friction component are independent Operation carries out the stirring of vertical direction by rabbling mechanism, further so that the operational efficiency of the dedusting mechanism is higher to raw material Ground improves the stirring efficiency of the gage mark coating production equipment, so that the practicability of the gage mark coating production equipment is stronger, with Existing rabbling mechanism is compared, which drives each driven subassembly to run simultaneously by transmission component, so that the blender The operational efficiency of structure is higher.

It is enlightenment, through the above description, related work people with the above-mentioned desirable embodiment according to the utility model Member can carry out various changes and amendments in the range of without departing from this item utility model technical idea completely.This item is real It is not limited to the contents of the specification with novel technical scope, it is necessary to its technology is determined according to scope of the claims Property range.

Claims (10)

1. a kind of hot melt type gage mark coating production equipment, which is characterized in that including shell (1), dedusting is equipped in the shell (1) Dedusting mechanism is arranged in mechanism and rabbling mechanism, the top that the dedusting mechanism is arranged in shell (1), the rabbling mechanism Lower section；

The dedusting mechanism includes funnel (2), the first dust removal assembly, two guide plates (3), two friction components and two second Dust removal assembly, the funnel (2) are horizontally set in shell (1), and two guide plates (3) are inclined at funnel (2) respectively Two sides, the funnel (2) are fixedly connected by guide plate (3) with the inner wall of shell (1), and the first dust removal assembly setting is being leaked The lower section of bucket (2), two the second dust removal assemblies are separately positioned on the two sides of the lower section of funnel (2), and two friction components are respectively positioned on The top of funnel (2), the top that the friction component is arranged in shell (1)；

First dust removal assembly includes riser (4) and two the first dust removing units, and the riser (4) is vertically fixed on funnel (2) lower section, two the first dust removing units are separately positioned on the two sides of riser (4)；

First dust removing units include at least two first friction pulleys (5), and each first friction pulley (5) is uniformly distributed from top to bottom On riser (4), first friction pulley (5) and riser (4) are hinged；

Second dust removal assembly includes fixed plate (6) and at least two second friction pulleys (7), and the fixed plate (6) is vertically solid It is scheduled on the side of the lower section of funnel (2), each second friction pulley (7) is evenly distributed on the close riser of fixed plate (6) from top to bottom (4) side, second friction pulley (7) and fixed plate (6) hingedly, the making material and second of first friction pulley (5) The making material of friction pulley (7) is acrylic；

The friction component includes telescopic unit and friction block (8), the top that the telescopic unit is arranged in shell (1), institute State the lower section that telescopic unit is arranged in friction block (8), telescopic unit driving friction block (8) lifting, friction block (8) table Face is equipped with silk；

The rabbling mechanism includes first motor (9), transmission component and at least two driven subassemblies, first motor (9) water Flat to be fixed on the inner wall of shell (1), the first motor (9) connect with transmission component, the transmission component and driven subassembly Connection, each driven subassembly are evenly distributed on transmission component；

The driven subassembly includes driven wheel (10) and two agitating units, and the driven wheel (10) is vertically arranged, and described first Motor (9) is separately positioned on the top of driven wheel (10) by transmission component driving driven wheel (10) rotation, two agitating units And lower section, the vertical cross-section of the driven wheel (10) be circle, circular cross-section of two agitating units about driven wheel (10) Center of circle central symmetry；

The agitating unit includes drive rod (11), follower lever (12), limited block (13) and agitating plate (14), the drive rod (11) one end and the separate the center point of driven wheel (10) are hinged, and the one of the other end of the drive rod (11) and follower lever (12) End is hinged, and the other end of the follower lever (12) is fixedly connected with agitating plate (14), and the limited block (13) is fixed on shell (1) Inner wall on, the limited block (13) is set on follower lever (12), and the limited block (13) is slidably connected with follower lever (12).

2. hot melt type gage mark coating production equipment as described in claim 1, which is characterized in that the telescopic unit includes driving Unit, connecting plate (15), expansion bracket (16), locating rod (17), two drive blocks (18), two sliding blocks (19) and two support plates (20), the top that the driving unit is arranged in shell (1), the connecting plate (15) is located at the lower section of driving unit, described Connecting plate (15) is equipped with strip-shaped hole, and two drive blocks (18) are arranged in strip-shaped hole, the drive block (18) and strip-shaped hole It is slidably connected, the expansion bracket (16) is vertically arranged, and the locating rod (17) is horizontally disposed, and two sliding blocks (19) are set in fixed On position bar (17), the sliding block (19) is slidably connected with locating rod (17), the two sides on the top of the expansion bracket (16) respectively with Two drive blocks (18) hingedly, the two sides of the bottom end of the expansion bracket (16) respectively with two sliding blocks (19) hingedly, two support Plate (20) is vertically fixed on the both ends of locating rod (17) respectively, and the friction block (8) is fixed on the lower section of two support plates (20).

3. hot melt type gage mark coating production equipment as claimed in claim 2, which is characterized in that the driving unit includes air pump (21), cylinder barrel (22), piston rod (23) and link block, the air pump (21) are fixedly connected with one of drive block (18), institute It states link block to be fixedly connected with another drive block (18), the air pump (21) is fixed on the top in shell (1), the cylinder barrel (22) it is horizontally set between air pump (21) and link block, the air pump (21) is fixedly connected with cylinder barrel (22), the air pump (21) it is connected to cylinder barrel (22), the piston rod (23) is horizontally disposed, and one end of the piston rod (23) is arranged in cylinder barrel (22) Interior, the other end of the piston rod (23) is fixedly connected with link block.

4. hot melt type gage mark coating production equipment as claimed in claim 3, which is characterized in that the link block and drive block (18) it is an integral molding structure.

5. hot melt type gage mark coating production equipment as described in claim 1, which is characterized in that the first motor (9) is to watch Take motor.

6. hot melt type gage mark coating production equipment as described in claim 1, which is characterized in that the transmission component includes transmission Band (24) and at least two driving wheels (25), the quantity of the driving wheel (25) is equal with the quantity of driven subassembly, the transmission It takes turns (25) and driven subassembly corresponds, the driving wheel (25) and driven wheel (10) are coaxially disposed, and each driving wheel (25) is successively Be evenly distributed on the inner wall of shell (1), the driving wheel (25) and the inner wall of shell (1) are hinged, the first motor (9) with One of driving wheel (25) transmission connection, each driving wheel (25) are sequentially connected by transmission belt (24),.

7. hot melt type gage mark coating production equipment as described in claim 1, which is characterized in that the limited block (13) with it is driven Bar (12) clearance fit.

8. hot melt type gage mark coating production equipment as described in claim 1, which is characterized in that the width of the friction block (8) Slightly larger than the distance between ipsilateral the first friction pulley (5) and the second friction pulley (7) for being located at riser (4).

9. hot melt type gage mark coating production equipment as claimed in claim 6, which is characterized in that the driving wheel (25) is equipped with Annular groove, transmission belt (24) setting is in a ring groove.

10. hot melt type gage mark coating production equipment as described in claim 1, which is characterized in that the system of the agitating plate (14) Making material is stainless steel.