CN102849529B - Sliding-shuttle reversing device for producing wire-twisting fiber pipe - Google Patents

Abstract

The invention relates to a sliding-shuttle reversing device for producing a wire-twisting fiber pipe, comprising an upper cross rail frame and a lower cross rail frame. The sliding-shuttle reversing device is characterized in that the two sides of the upper cross rail frame are respectively provided with a synchronous traversing frame; the two traversing frames are internally and oppositely provided with a pair of pushing block mechanisms; a first movable supporting cross rod capable of moving upwards, downwards and horizontally is arranged under the upper cross rail frame; a row of sliding shuttles positioned in the upper cross rail frame are horizontally arranged on the first movable supporting cross rod; a second movable supporting cross rod capable of moving upwards, downwards and horizontally is arranged under the lower cross rail frame; one side of the upper cross rail frame is provided with a pushing plate; and the pushing plate is used for pushing the sliding shuttles to move horizontally along the upper cross rail frame to enable the sliding shuttles to separate from the first movable supporting rod and then fall on the lower cross rail frame. The sliding-shuttle reversing device has the advantages that raw wires for producing the wire-twisting fiber pipe can be guided out and reversed in order and can be not crossed and laminated into one layer, so that the quality of the pipe is not influenced.

Description

Produce the shuttle reversing arrangement that hank knotting fiber tube is used

Technical field

The present invention relates to a kind of shuttle reversing arrangement that hank knotting fiber tube is used of producing, be applicable in the making of tubing products.

Background technology

Manufacture now in the equipment of some tubing, with raw material thread coiling, the tubing of producing stacked together, when raw material thread feeding needs commutation to the end, how just there is raw material skein silk together, make the wall thickness of the tubing two ends produced be greater than other place, and stressed also inhomogeneous, affect its quality.

Summary of the invention

The object of the present invention is to provide a kind of shuttle reversing arrangement that hank knotting fiber tube is used of producing, the derivation that this device can be orderly also commutation for the production of the raw material thread of hank knotting fiber tube, make raw material thread can crossing stack at one deck.

The invention is characterized in: a kind ofly produce the shuttle reversing arrangement that hank knotting fiber tube is used, comprise traverse rod frame and lower traverse rod frame, it is characterized in that: described upper traverse rod frame two sides are respectively arranged with synchronous traversing framework, in two traversing frameworks, be provided with in opposite directions a pair of pushing block mechanism, described upper traverse rod frame below is provided with can be up and down and the first kinematic support cross bar of lateral offset, described the first kinematic support cross bar top rail is shown the shuttle of a ranking in upper traverse rod frame, and described lower traverse rod frame below is provided with can be up and down and the second kinematic support cross bar of lateral offset; Described upper traverse rod frame one side is provided with for promoting shuttle and drops to the push pedal on lower traverse rod frame along the traversing shuttle that makes of upper traverse rod frame under departing from after the first kinematic support rod member, described pushing block mechanism comprises for withstanding along upper traverse rod frame and is pushed out the first rod member of shuttle and supporting and for promoting down to fall within the second rod member of bottom rail rail frame shuttle with the first rod member, described the first rod member is contrary with the sense of motion of the second rod member, and described the first rod member, the sense of motion of the second rod member and the sense of motion of shuttle parallel.

Further, in above-mentioned traversing framework, be fixed with the first sleeve and the second sleeve that distribute up and down, described the first sleeve interpolation is connected to the first rod member, in described the second sleeve, be plugged with the second rod member, described the first rod member and the second rod member are all hinged with one end of a transiting rod, the both ends of the other end of two transiting rods and a pipe link are hinged, described pipe link middle part is hinged and realizes the rotation of pipe link on vertical plane with traversing framework, described the second rod member is provided with protuberance near transiting rod one sidepiece, between described protuberance and the second sleeve, be provided with so that the spring that the second rod member resets.

Further, on the top board of above-mentioned traversing framework, offer the conduit that makes push pedal current; Described upper traverse rod frame two side tops are respectively arranged with the projection coordinating with conduit clamping; Described projection below is connected with the lifting bar coordinating with upper traverse rod frame, is arranged with the reset that retracing spring is realized projection on described lifting bar.

Further, above-mentioned first kinematic support cross bar one end portion is positioned at traverse rod frame below, the other end is connected and realizes the vertical displacement of the first kinematic support cross bar with an oil cylinder upper end, and above-mentioned oil cylinder lower end and a slide rail are connected and realize the lateral offset of the first kinematic support cross bar; Described second kinematic support cross bar one end portion is positioned at lower traverse rod frame below, the other end is connected and realizes the vertical displacement of the second kinematic support cross bar with another oil cylinder upper end, and above-mentioned oil cylinder lower end and a slide rail are connected and realize the lateral offset of the second kinematic support cross bar.

Further, above above-mentioned upper traverse rod frame two sides, being respectively arranged with air blast nozzle is beneficial to the shuttle being positioned on the first kinematic support cross bar to drop on lower traverse rod frame.

Further, above-mentioned conduit comprises the conduit of a T font, and described projection is connected to and allows in the perpendicular longitudinal channels of the current lateral channel of push pedal; Described push pedal is the push pedal that a section is T font, below, described push pedal two ends is provided with inclined-plane, described projection is provided with towards upper traverse rod frame middle part one side the inclined-plane coordinating with push pedal inclined-plane, so that the traversing belling at present of push pedal piece is removed projection connecting and fixing traversing framework.

Further, on above-mentioned lower traverse rod frame, be provided with slideway, be provided with the slide bar being mated on described slideway, described slide bar two ends are connected respectively at traversing base of frame.

Further, in above-mentioned traversing framework, be provided with 2 the first rod members and 2 second rod members of the both sides, front and back that are positioned at push pedal.

Further, above-mentioned the first rod member is positioned at traverse rod frame below, and described the second rod member is positioned at lower traverse rod frame top.

Advantage of the present invention:

The first, although parts are many, topology layout is clear, reasonable, and mounting or dismounting are convenient;

The second, derivation that can be orderly also commutation for the production of the raw material thread of hank knotting fiber tube, make raw material thread can crossing stack at one deck, make its smooth distribution lamination form hank knotting fiber tube;

The 3rd, the level of mechanization of this device is high, does not need artificial non-productive operation can complete the work of commutation.

Accompanying drawing explanation

Fig. 1 is principle schematic of the present invention.

Fig. 2 is A-A cross sectional drawing in Fig. 1.

Fig. 3 is the structure birds-eye view figure of traversing framework in the embodiment of the present invention.

Fig. 4 is organigram of the present invention.

Fig. 5 is the schematic diagram of the mode of operation 1 of the embodiment of the present invention.

Fig. 6 is the schematic diagram of the mode of operation 2 of the embodiment of the present invention.

Fig. 7 is the schematic diagram of the mode of operation 3 of the embodiment of the present invention.

Fig. 8 is the schematic diagram of the mode of operation 4 of the embodiment of the present invention.

Fig. 9 is the schematic diagram of the mode of operation 5 of the embodiment of the present invention.

Figure 10 is the schematic diagram of the mode of operation 6 of the embodiment of the present invention.

Figure 11 is the schematic diagram of the mode of operation 7 of the embodiment of the present invention.

Figure 12 is the path of motion schematic diagram of the single shuttle of the embodiment of the present invention.

In figure: 1 is upper traverse rod frame; 2 is lower traverse rod frame; 3 is traversing framework; 4 is pushing block mechanism; 51 is the first kinematic support cross bar; 52 is the second kinematic support cross bar; 6 is shuttle; 7 is push pedal; 8 is projection; 9 is oil cylinder; 10 is slide rail; 11 is air blast nozzle; 21 is slideway; 22 is slide bar; 31 is the first sleeve; 32 is the second sleeve; 33 is conduit; 41 is the first rod member; 42 is the second rod member; 43 is transiting rod; 44 is pipe link; 45 is protuberance; 46 is spring; 81 is lifting bar; 82 is retracing spring.

The specific embodiment

For above-mentioned feature and advantage of the present invention can be become apparent, special embodiment below, and coordinate appended graphic being described in detail below.

With reference to legend, a kind ofly produce the shuttle reversing arrangement that hank knotting fiber tube is used, comprise traverse rod frame 1 and lower traverse rod frame 2, it is characterized in that: 1 liang of side of described upper traverse rod frame is respectively arranged with synchronous traversing framework 3, in two traversing frameworks 3, be provided with in opposite directions a pair of pushing block mechanism 4, described upper traverse rod frame 1 below is provided with the first kinematic support cross bar 51, described support rail and 51 lines of the first kinematic support cross bar have row's shuttle 6, described upper traverse rod frame 1 one sides are provided with for promoting shuttle 6 along the traversing push pedal 7 of upper traverse rod frame 1, described lower traverse rod frame 2 belows are provided with the second kinematic support cross bar 52, described pushing block mechanism 4 comprises for withstanding the first rod member 41 of shuttle 6 and supporting and for promoting the second rod member 42 of shuttle 6 with the first rod member 41, described the first rod member 41 is positioned at traverse rod frame 1 below, described the second rod member 42 is positioned at lower traverse rod frame 2 tops, described the first rod member 41 is contrary with the sense of motion of the second rod member 42, and the sense of motion of described the first rod member 41, the second rod member 42 parallels with the sense of motion of shuttle 6.

In above-mentioned traversing framework 3, be fixed with the first sleeve 31 and the second sleeve 32 that distribute up and down, in described the first sleeve 31, be plugged with the first rod member 41, in described the second sleeve 32, be plugged with the second rod member 42, described the first rod member 41 and the second rod member 42 are all hinged with one end of a transiting rod 43, the both ends of the other end of two transiting rods 43 and a pipe link 44 are hinged, described pipe link 44 middle parts and traversing framework 3 are hinged and realize the rotation of pipe link 44 on vertical plane, described the second rod member 42 is provided with protuberance 45 near transiting rod 43 1 sidepieces, described protuberance 45 and 32, the second sleeve are provided with so that the spring 46 that the second rod member 42 resets.

On the top board of above-mentioned traversing framework 3, offer the conduit 33 that makes push pedal 7 current; 1 liang of side top of described upper traverse rod frame is respectively arranged with the projection 8 coordinating with conduit 33 clampings; Described projection 8 belows are connected with the lifting bar 81 coordinating with upper traverse rod frame 1, on described lifting bar 81, are arranged with the reset that retracing spring 82 is realized projection 8.

Above-mentioned first kinematic support cross bar 51 one end portions are positioned at traverse rod frame 1 below, the other end is connected and realizes the vertical displacement of the first kinematic support cross bar 51 with oil cylinder 9 upper ends, and above-mentioned oil cylinder 9 lower ends and a slide rail 10 are connected and realize the lateral offset of the first kinematic support cross bar 51; Described second kinematic support cross bar 52 one end portions are positioned at lower traverse rod frame 2 belows, the other end is connected and realizes the vertical displacement of the second kinematic support cross bar 52 with another oil cylinder 9 upper ends, and above-mentioned oil cylinder 9 lower ends and a slide rail 10 are connected and realize the lateral offset of the second kinematic support cross bar 52.

1 liang of side top of above-mentioned upper traverse rod frame is respectively arranged with air blast nozzle 11 and is beneficial to the shuttle 6 being positioned on the first kinematic support cross bar 51 to drop on lower traverse rod frame 2.

Above-mentioned conduit 33 comprises the conduit 33 of a T font, and described projection 8 is connected to and allows in the perpendicular longitudinal channels of the current lateral channel of push pedal 7; Described push pedal 7 is the push pedal 7 that a section is T font, described push pedal 7 belows, two ends are provided with inclined-plane, described projection 8 is provided with towards upper traverse rod frame 1 middle part one side the inclined-plane coordinating with push pedal 7 inclined-planes, so that the traversing belling at present of push pedal 7 piece 8 is removed connecting and fixing of 8 pairs of traversing frameworks 3 of projection.

On above-mentioned lower traverse rod frame 2, be provided with slideway 21, be provided with the slide bar 22 being mated on described slideway 21, described slide bar 22 two ends are connected respectively at traversing framework 3 bottoms.

In above-mentioned traversing framework 3, be provided with 2 the first rod members 41 and 2 second rod members 42 of the both sides, front and back that are positioned at push pedal 7.

In the present invention, upper traverse rod frame 1 is all comprised of two parts with lower traverse rod frame 2, upper traverse rod frame 1 is comprised of two L shaped rod members, middle passage is used for allowing push pedal 7 transverse shiftings, and lower traverse rod frame 2 is also comprised of two rod members, centre is to be also provided with passage, and this passage is for facilitating the first kinematic support cross bar 51 and the second kinematic support cross bar 52 to move up; In the conduit 33 of T font described in the present invention, one for current push pedal 7, and another is for clamping projection 8; Be arranged on the pipe link in traversing framework, realize the move toward one another of the first rod member and the second rod member by its effect, the first rod member is for controlling the shuttle being positioned on top rail rail frame, and the second rod member is for promoting to be positioned at the shuttle on lower traverse rod frame.

Working process of the present invention is:

When work starts, one row's shuttle 6 is between the first kinematic support cross bar 51 and upper traverse rod frame 1, two first rod members 41 that are positioned at the traversing framework 3 on the left side withstand and are positioned at a leftmost shuttle 6, the shuttle 6 that push pedal 7 on the right of being positioned at promotes to be positioned on the first kinematic support cross bar 51 is moved to the left, now, the first rod member 41 is moved to the left, on the second rod member 42, move right, the spring being enclosed within on the second rod member 42 is compressed, when leftmost shuttle 6 is pushed over the state of Fig. 5, leftmost shuttle falls for 6 times, at this moment, spring recovers to impel the second rod member 42 to be moved to the left rapidly, second shuttle 6 that the first rod member 41 rises near left side number rapidly, and leftmost shuttle 6 also falls on twice traverse rod framves 2, with reference to figure 6, then under the traversing effect of continuation of push pedal 7, on the second rod member 42, move right, leftmost shuttle 6 is promoted to the right, second shuttle, the 6 whereabouts vacating spaces that rise for left side number, with reference to figure 7, so circulation, drops on lower traverse rod frame 2, with reference to figure 8 and Fig. 9 under being all positioned at shuttle 6 on the first kinematic support cross bar 51, now, push pedal 7 continues to be moved to the left, under the matching relationship on the inclined-plane of push pedal 7 and projection 8, projection 8 moves down, and releasing connects and fixes the traversing framework 3 in the left side, and then push pedal 7 continues to be moved to the left, thereby drive two traversing frameworks 3 to be moved to the left, so just make the traversing framework 3 on the left side leave control position, the traversing framework 3 on the right is moved to the left to by the projection 8 on the right and blocks, and it is fixed than the control position in it, at this moment, with reference to Figure 10 and Figure 11, cylinder and slide rail work, the first kinematic support cross bar 51 is moved down and moved to right, the second kinematic support cross bar 52 moves right, and move up from lower traverse rod frame 2 belows, whole row's shuttle 6 is held up and makes shuttle 6 between the second kinematic support cross bar 52 and upper traverse rod frame 1, now rightmost shuttle 6 with it anteposition in leftmost shuttle 6, make same, at this moment push pedal 7 moves right, identical with the principle of describing before, under shuttle on the first kinematic support cross bar 51 6 is whole, drop on lower traverse rod frame 2, and complete the switching to the control position of transverse moving left and right framework 3, then the second kinematic support cross bar 52 downwards and be moved to the left, the first kinematic support cross bar 51 is moved to the left, and move up from lower traverse rod frame 2 belows, whole row's shuttle 6 is held up and makes shuttle 6 between the first kinematic support cross bar 51 and upper traverse rod frame 1, the state that the work of getting back to starts, whole like this working cycle, in this working process, the sequence that each shuttle falls for 6 times is the same all the time, can there is not any variation, the raw material thread that so just can be used in production hank knotting fiber tube can be orderly, be evenly distributed on hank knotting fiber tube, in process of production, when this device commutates to raw material thread, can realize raw material thread there will not be stacked together with strand, and the similar ∞ shape of the path of motion of whole row's shuttle 6, the path of motion of single shuttle is with reference to Figure 12, all shuttles 6 be all one and then one taking exercises, the sequencing of its motion never can change.

The present invention, in a preferred embodiment, derives reversing arrangement by two and forms, and can increase like this efficiency of production, referring to Fig. 4.

The foregoing is only preferred embodiment of the present invention, all equalizations of doing according to the present patent application the scope of the claims change and modify, and all should belong to covering scope of the present invention.

Claims (9)

1. produce the shuttle reversing arrangement that hank knotting fiber tube is used for one kind, comprise traverse rod frame and lower traverse rod frame, it is characterized in that: described upper traverse rod frame two sides are respectively arranged with synchronous traversing framework, in two traversing frameworks, be provided with in opposite directions a pair of pushing block mechanism, described upper traverse rod frame below is provided with can be up and down and the first kinematic support cross bar of lateral offset, described the first kinematic support cross bar top rail is shown the shuttle of a ranking in upper traverse rod frame, and described lower traverse rod frame below is provided with can be up and down and the second kinematic support cross bar of lateral offset; Described upper traverse rod frame one side is provided with for promoting shuttle and drops to the push pedal on lower traverse rod frame along the traversing shuttle that makes of upper traverse rod frame under departing from after the first kinematic support rod member, described pushing block mechanism comprises for withstanding along upper traverse rod frame and is pushed out the first rod member of shuttle and supporting and for promoting down to fall within the second rod member of bottom rail rail frame shuttle with the first rod member, described the first rod member is contrary with the sense of motion of the second rod member, and described the first rod member, the sense of motion of the second rod member and the sense of motion of shuttle parallel.

2. the shuttle reversing arrangement that production hank knotting fiber tube according to claim 1 is used, it is characterized in that: in described traversing framework, be fixed with the first sleeve and the second sleeve that distribute up and down, described the first sleeve interpolation is connected to the first rod member, in described the second sleeve, be plugged with the second rod member, described the first rod member and the second rod member are all hinged with one end of a transiting rod, the both ends of the other end of two transiting rods and a pipe link are hinged, described pipe link middle part is hinged and realizes the rotation of pipe link on vertical plane with traversing framework, described the second rod member is provided with protuberance near transiting rod one sidepiece, between described protuberance and the second sleeve, be provided with so that the spring that the second rod member resets.

3. the shuttle reversing arrangement that production hank knotting fiber tube according to claim 1 is used, is characterized in that: on the top board of described traversing framework, offer the conduit that makes push pedal current; Described upper traverse rod frame two side tops are respectively arranged with the projection coordinating with conduit clamping; Described projection below is connected with the lifting bar coordinating with upper traverse rod frame, is arranged with the reset that retracing spring is realized projection on described lifting bar.

4. the shuttle reversing arrangement that production hank knotting fiber tube according to claim 1 is used, it is characterized in that: described first kinematic support cross bar one end portion is positioned at traverse rod frame below, the other end is connected and realizes the vertical displacement of the first kinematic support cross bar with an oil cylinder upper end, and above-mentioned oil cylinder lower end and a slide rail are connected and realize the lateral offset of the first kinematic support cross bar; Described second kinematic support cross bar one end portion is positioned at lower traverse rod frame below, the other end is connected and realizes the vertical displacement of the second kinematic support cross bar with another oil cylinder upper end, and above-mentioned oil cylinder lower end and a slide rail are connected and realize the lateral offset of the second kinematic support cross bar.

5. the shuttle reversing arrangement that production hank knotting fiber tube according to claim 1 is used, is characterized in that: described upper traverse rod frame two side tops are respectively arranged with air blast nozzle and are beneficial to the shuttle being positioned on the first kinematic support cross bar to drop on lower traverse rod frame.

6. the shuttle reversing arrangement that production hank knotting fiber tube according to claim 3 is used, is characterized in that: described conduit comprises the conduit of a T font, and described projection is connected to and allows in the perpendicular longitudinal channels of the current lateral channel of push pedal; Described push pedal is the push pedal that a section is T font, below, described push pedal two ends is provided with inclined-plane, described projection is provided with towards upper traverse rod frame middle part one side the inclined-plane coordinating with push pedal inclined-plane, so that the traversing belling at present of push pedal piece is removed projection connecting and fixing traversing framework.

7. the shuttle reversing arrangement that production hank knotting fiber tube according to claim 1 is used, is characterized in that: on described lower traverse rod frame, be provided with slideway, be provided with the slide bar being mated on described slideway, described slide bar two ends are connected respectively at traversing base of frame.

8. the shuttle reversing arrangement that production hank knotting fiber tube according to claim 1 is used, is characterized in that: 2 the first rod members and 2 the second rod members that in described traversing framework, are provided with the both sides, front and back that are positioned at push pedal.

9. the shuttle reversing arrangement that production hank knotting fiber tube according to claim 1 is used, is characterized in that: described the first rod member is positioned at traverse rod frame below, and described the second rod member is positioned at lower traverse rod frame top.

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