CN208529864U - Accurate adjustable embossing machine - Google Patents

Abstract

The utility model relates to a kind of adjustable embossing machines of precision, it includes bracket, lower beam support plate, upper axis, lower axle, sliding block, reset spring, upper beam, screw rod, gear, nut set, regulating mechanism, bracket includes left support and right support, lower beam support plate upper end two sides are respectively corresponded equipped with left support and right support, lower axle both ends respectively correspond the lower end inside for being mounted on left support and right support, sliding slot is had among the upper end of left support and right support, and sliding slot is provided with sliding block, upper axis is installed between two sliding blocks, reset spring is housed between sliding block lower end and sliding slot bottom, gag lever post is equipped among reset spring, screw rod is housed among sliding block, screw rod lower end is fixed on the sliding slot bottom of bracket, spring pocket is in screw rod lower end.Advantage be it is ingenious in design, structurally reasonable, easy to use, the differentiation for being able to satisfy market and people are to the quality of product and the diversified demand of functional requirement.

Description

Accurate adjustable embossing machine

Technical field

The utility model and nipper field specifically relate to a kind of adjustable embossing machine of precision.

Background technique

In the adjustable embossing machine of precision of previous nipper, double roller is mostly changeless, and this fixed form exists very Big defect connects source of error between each build-up member, suppress for product it is undesirable, and because the thickness of mold body is difficult to Control also easily causes product compacting uneven；If it is desired to two sets of deep mixed Printings are made, existing nipper is It is unable to complete this function；Previous two side gear of pressure roller is fixed on pressure roller, and disassembly, adjustment are difficult；Current existing nipper The differentiation for being unable to satisfy market and people are to the quality of product and the diversified demand of functional requirement.

Summary of the invention

To solve the above-mentioned problems, the utility model provides a kind of adjustable embossing machine of precision, can be by adjusting two-wheel roller The distance between realize to the more right of the error of machine, adjusting to the printing product depth；Axis on a kind of ladder is designed, is made It is more uniform to obtain product compacting；Hexagonal axis tooth position is designed in pressure roller side, is installed in hexagonal axis tooth position between gear, disassembly, It is easy to adjust.

A kind of adjustable embossing machine of precision, it include bracket, lower beam support plate, upper axis, lower axle, sliding block, reset spring, on Crossbeam, screw rod, gear, nut set, regulating mechanism, bracket include left support and right support, lower beam support plate upper end two sides point Left support and right support Dui Ying be housed, lower axle both ends respectively correspond the lower end inside for being mounted on left support and right support, left branch Sliding slot is had among the upper end of frame and right support, and sliding slot is provided with sliding block, upper axis is installed between two sliding blocks, under sliding block Reset spring is housed between end and sliding slot bottom, gag lever post is equipped among reset spring, screw rod, screw rod lower end are housed among sliding block It is fixed on the sliding slot bottom of bracket, for spring pocket in screw rod lower end, upper beam two sides are fixed respectively to be equipped with nut set, the rotation of screw rod upper end In nut set and nut set upper side is passed through, screw rod upper end is equipped with gear, and screw rod upper end is drivingly connected regulating mechanism by gear, Upper axis two sides are respectively provided with gear, and lower axle side is equipped with gear；Upper beam both ends are separately fixed at the upper of left support and right support End.

The gag lever post is fixed on sliding slot bottom, gag lever post and sliding block lower end, and there are gaps, when sliding block drives above axially Lower mobile a distance, gag lever post are against on sliding block, and sliding block is prevented to continue to move down.

The regulating mechanism includes rack gear, center adjustment gear, and center adjustment gear is rotatably mounted among upper beam, The upper beam upper end design has sliding slot, and rack gear is slidably mounted in the sliding slot on upper beam, in center adjustment wheel and rack Between engage connection, connection is engaged with the gear of two sides screw rod upper end respectively in rack gear both ends.

The regulating mechanism includes side rack gear adjusting screw rod, screw holder, plane nut, rack gear, and described is upper The design of crossbeam upper end has sliding slot, and rack gear is slidably mounted in the sliding slot on upper beam, and side rack gear adjusting screw rod is rotatably mounted on Screw rod rolls in reservation, and screw holder is fixedly mounted on upper beam upper end side, side rack gear adjusting screw rod by plane nut Connection is engaged with rack, connection is engaged with the gear of two sides screw rod upper end respectively in rack gear both ends.

The upper axis is designed as stepped shaft, thin ends and thick middle.

The both ends shaft end of the upper axis, which is all designed to have, is also devised with jump-ring slot on the outside of hexagonal axis tooth position and hexagonal axis tooth position, Also correspondence is designed to hexagon ring among gear, and gear is installed in hexagonal axis tooth position by hexagon ring and outside is stuck in by circlip In jump-ring slot, positioned；Upper axis both ends are rotatably mounted on sliding block by full needle needle bearing respectively.

The left side shaft end design of the lower axle, which has, is also devised with jump-ring slot, tooth on the outside of hexagonal axis tooth position and hexagonal axis tooth position Wheel is intermediate also corresponding to be designed to hexagon ring, and gear is installed in hexagonal axis tooth position by hexagon ring and outside by circlip is stuck in card In spring slot, positioned；Lower axle both ends are rotatably mounted on sliding block by full needle needle bearing respectively.

Crank driving gear mechanism is also devised on the right side of the upper axis, crank driving gear mechanism is engaged by gear to be connected The gear on the right side of axis is connected, is covered on the outside of the gear on the right side of crank driving gear mechanism and upper axis by cover board.

The regulating mechanism is driven by motor driven or hand crank.

The utility model has the advantages that it is ingenious in design, it is structurally reasonable, it is easy to use, it is able to satisfy the differentiation in market, and People are to the quality of product and the diversified demand of functional requirement.

Detailed description of the invention

Fig. 1 is the structural schematic diagram that two kinds of regulating mechanisms of the utility model combine.

Fig. 2 is the independent side regulating mechanism structural schematic diagram of the utility model.

Fig. 3 is the independent center adjustment mechanism structural schematic diagram of the utility model.

Fig. 4 is the side structure sectional view of the utility model.

Fig. 5 is the partial schematic diagram of the side regulating mechanism structure of the utility model.

Fig. 6 is the partial schematic diagram of the center adjustment mechanism structure of the utility model.

Specific embodiment

Referring to attached drawing 1-6, a kind of adjustable embossing machine of precision, it include bracket 1, lower beam support plate 2, upper axis 3, lower axle 4, Sliding block 5, reset spring 6, upper beam 7, screw rod 8, gear 13, nut cover 9, regulating mechanism 10, bracket 1 include left support 1-1 and Right support 1-2,2 upper end two sides of lower beam support plate are respectively corresponded equipped with left support 1-1 and right support 1-2,4 both ends of lower axle difference It is opened respectively among the upper end of the corresponding lower end inside for being mounted on left support 1-1 and right support 1-2, left support 1-1 and right support 1-2 There is sliding slot, and sliding slot is provided with sliding block 5, upper axis 3 is installed between two sliding blocks 5, equipped with multiple between sliding block lower end and sliding slot bottom Position spring 6 is equipped with gag lever post 29 among reset spring 6, screw rod 8 is housed among sliding block, 8 lower end of screw rod is fixed on the sliding slot of bracket Bottom, 6 sets of reset spring is in 8 lower end of screw rod, and 7 two sides of upper beam are fixed equipped with nut set 9 respectively, and 8 upper end of screw rod is spun on nut In set 9 and 9 upper ends of nut set are passed through, 8 upper end of screw rod is equipped with gear 13, and 8 upper end of screw rod is drivingly connected regulating mechanism by gear 10, upper axis two sides are respectively provided with gear, and lower axle side is equipped with gear；7 both ends of upper beam are separately fixed at left support 1-1 and right branch The upper end of frame 1-2.The regulating mechanism is driven by motor driven or hand crank.

The gag lever post 29 is fixed on sliding slot bottom, gag lever post 29 and 5 lower end of sliding block, and there are gaps, when sliding block 5 drives Upper axis 3 moves down a distance, and gag lever post 29 is against on sliding block, and sliding block 5 is prevented to continue to move down.

If Fig. 3, Fig. 6, the regulating mechanism 10-2 include rack gear 14, central rack adjustment gear 19, central rack tune Section gear 19 is rotatably mounted among upper beam 7, and 7 upper end of the upper beam design has sliding slot, and rack gear 14 is slidably mounted on cross In sliding slot on beam, central rack adjustment gear 19 is connect with engaging among rack gear 14,14 both ends of rack gear respectively with two sides spiral shell The gear 13 of 8 upper end of bar engages connection.

If Fig. 2, Fig. 5, the regulating mechanism 10-1 include side rack gear adjusting screw rod 17, screw holder 16, plane Nut 15, rack gear 14,7 upper end of the upper beam design have sliding slot, and rack gear 14 is slidably mounted in the sliding slot on upper beam 7, Side rack gear adjusting screw rod 17 is rotatably mounted in screw holder 16, and screw holder 16 is fixedly mounted by plane nut 15 In 7 upper end side of upper beam, side rack gear adjusting screw rod 17 engages connection with rack gear 14,14 both ends of rack gear respectively with two sides screw rod The gear 13 of 8 upper ends engages connection.

The upper axis 3 is designed as stepped shaft, thin ends and thick middle.

The both ends shaft end of the upper axis 3, which is all designed to have, is also devised with circlip on the outside of hexagonal axis tooth position 11 and hexagonal axis tooth position Slot 20, also correspondence is designed to hexagon ring among gear 12, and gear 12 is installed in hexagonal axis tooth position 11 by hexagon ring and outside It is stuck in jump-ring slot 20, is positioned by circlip 21；Upper 3 both ends of axis are rotatably mounted on sliding block by full needle needle bearing respectively On 5.

The left side shaft end design of the lower axle 4, which has, is also devised with jump-ring slot on the outside of hexagonal axis tooth position 22 and hexagonal axis tooth position 23, also corresponding among gear 24 to be designed to hexagon ring, gear 24 is installed in hexagonal axis tooth position 22 by hexagon ring and outside leads to It crosses circlip 25 to be stuck in 23 in jump-ring slot, be positioned；4 both ends of lower axle are rotatably mounted on sliding block 5 by full needle needle bearing respectively On.

Crank driving gear mechanism 26 is also devised on the right side of the upper axis 3, crank driving gear mechanism 26 passes through gear Engagement connects the gear on the right side of upper axis, is covered on the outside of the gear 27 on the right side of crank driving gear mechanism 26 and upper axis by cover board 28 Firmly.

The utility model drives screw gear 13 to rotate by regulating mechanism 10, and screw rod 8 withstands the up and down action of sliding block 5, band Dynamic upper roller 3 moves up and down, and realizes that spacing is adjusted between upper roller 3 and lower roll 4.

When the utility model is used, it rotates band carry-over bar by regulating mechanism to rotate, rack gear is engaged with screw rod upper end gear Drive screw rod rotation in nut covers, while screw rod rotates on sliding block, screw rod rotation in nut covers make screw rod rise or Decline rises sliding block or decline, and when decline, sliding block overcomes the spring force of spring to decline, and limited post is limited, anti-on-slip Block decline is excessive, and sliding block drives upper axis decline, and when rising, sliding block rises under the spring force of spring, so that axis be made to rise.On Axis is designed to stepped shaft, and benefit is when extruded product between upper axis and lower axle, and upper axis meeting Light deformation arches upward, so upwards Originally upper axis was dimpling, and under the effect of arching upward, upper axis reforms into level, and such extruded product quality is just better, met life It produces and needs.The design of the hexagonal axis tooth position of upper axis or lower axle facilitates gear to install, without positioning key pin.

The utility model has the advantages that it is ingenious in design, it is structurally reasonable, it is easy to use, it is able to satisfy the differentiation in market, and People are to the quality of product and the diversified demand of functional requirement.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.

Finally, it should be noted that the foregoing is only a preferred embodiment of the present invention, it is not intended to restrict the invention, Although the present invention is described in detail referring to the foregoing embodiments, for those skilled in the art, still may be used To modify the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features. All within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in of the invention Within protection scope.

Claims (9)

1. accurate adjustable embossing machine, which is characterized in that it includes bracket, lower beam support plate, upper axis, lower axle, sliding block, resets bullet Spring, upper beam, screw rod, gear, nut set, regulating mechanism, bracket include left support and right support, lower beam support plate upper end two Side is respectively corresponded equipped with left support and right support, and fixed correspondence is mounted in the lower end of left support and right support respectively at lower axle both ends Have sliding slot among the upper end of side, left support and right support, and sliding slot is provided with sliding block, upper axis be installed on two sliding blocks it Between, reset spring is housed between sliding block lower end and sliding slot bottom, gag lever post is equipped among reset spring, sliding block top is equipped with spiral shell Bar, upper beam two sides are fixed respectively to be equipped with nut set, and screw rod upper end is spun in nut set and passes through nut set upper side, screw rod upper end Equipped with gear, screw rod upper end connects regulating mechanism by gear, and upper axis two sides are respectively provided with gear, and lower axle side is equipped with gear； Upper beam both ends are fixed on the upper end of left support and right support；Regulating mechanism drives gear, drives screw rod rotation, axis is sliding in driving Block moves up and down.

2. the adjustable embossing machine of precision according to claim 1, which is characterized in that the gag lever post is fixed on sliding slot bottom Portion, there are gaps with sliding block lower end for gag lever post.

3. the adjustable embossing machine of precision according to claim 1, which is characterized in that the regulating mechanism include rack gear, in Heart adjustment gear, center adjustment gear are mounted among upper beam, and the upper beam upper end design has sliding slot, rack gear sliding dress In sliding slot on upper beam, engagement connection among center adjustment wheel and rack, rack gear both ends respectively with two sides screw rod upper end Gear engage connection.

4. the adjustable embossing machine of precision according to claim 1, which is characterized in that the regulating mechanism includes side rack gear Adjusting screw rod, screw holder, plane nut, rack gear, the upper beam upper end design have sliding slot, and rack gear is slidably mounted on In sliding slot on crossbeam, side rack gear adjusting screw rod is rotatably mounted in screw holder, and screw holder passes through plane nut Be fixedly mounted on upper beam upper end side, side rack gear adjusting screw rod is engaged with rack connection, rack gear both ends respectively with two sides spiral shell The gear of bar upper end engages connection.

5. the adjustable embossing machine of precision according to claim 1, which is characterized in that the upper axis is designed as stepped shaft, It is thin ends and thick middle.

6. the adjustable embossing machine of precision according to claim 5, which is characterized in that all design the both ends shaft end of the upper axis Have and is also devised with jump-ring slot on the outside of hexagonal axis tooth position and hexagonal axis tooth position, it is also corresponding among gear to be designed to that hexagon ring, gear are logical It crosses that hexagon ring is installed in hexagonal axis tooth position and outside is stuck in jump-ring slot by circlip, is positioned；Upper axis both ends lead to respectively Overfill needle needle bearing is rotatably mounted on sliding block.

7. the adjustable embossing machine of precision according to claim 1, which is characterized in that the left side shaft end design of the lower axle has It is also devised with jump-ring slot on the outside of hexagonal axis tooth position and hexagonal axis tooth position, is also corresponded among gear and is designed to that hexagon ring, gear pass through Hexagon ring is installed in hexagonal axis tooth position and outside is stuck in jump-ring slot by circlip, is positioned；Lower axle both ends pass through respectively Full needle needle bearing is rotatably mounted on sliding block.

8. the adjustable embossing machine of precision according to claim 6, which is characterized in that be also devised with crank on the right side of the upper axis Driving gear mechanism, crank driving gear mechanism connect the gear on the right side of upper axis, crank driving gear mechanism by gear engagement It is covered on the outside of the gear on the right side of upper axis by cover board.

9. precision described according to claim 1 or 3 or 4 is adjustable embossing machine, which is characterized in that the regulating mechanism is to pass through Motor driven or hand crank driving.