CN104975433A - Lathe bed structure of multi-bar Raschel warp knitting machine - Google Patents

Abstract

The invention relates to the field of weaving machinery technology, in particular to a lathe bed structure of a multi-bar Raschel warp knitting machine. The lathe bed comprises an oil compartment structure, a pneumatic element support structure and an electronic element support structure. The pneumatic element support structure and the electronic element support structure are respectively arranged on left side and right side of the oil compartment structure. The oil compartment structure comprises a lathe bed front plate, a lathe bed back plate, a lathe bed bottom plate and an upper cover plate. The lathe bed front plate and the lathe bed back plate are vertically welded on the lathe bed bottom plate. An oil tank support plate is welded between the lathe bed front plate and the lathe bed back plate. Oil tank inner separator plates which are separated at intervals are vertically welded on the oil tank support plate. The upper cover plate is welded on the oil tank inner separator plates. Big wallboard support plates are welded on two ends of the upper cover plate. Multiple middle wallboard support plates are welded on the upper cover plate between the big wallboard support plates. All kinds of plate pieces for increasing structure strength are uniformly distributed on the whole lathe bed, and via an approximate integrated structure, structural rigidity is increased, so the structure is more firm and reliable.

Description

The lathe bed structure of multi-bar raschel machine

Technical field

The present invention relates to technical field of textile machine, especially a kind of lathe bed structure of multi-bar raschel machine.

Background technology

Warp knitting machine belongs to textile machinery, at a high speed and accurate; Along with the pursuit that development and the modern people of technology are maked rapid progress for fashion, the sley bar quantity of warp knitting machine gets more and more, to be used for specially weaving the lace machine of roses and lace, general sley bar quantity will reach more than 40, and the most multipotency of prior art reaches about 90.The electrical equipment that the space that the increasing of sley bar quantity not only spatially adds mechanical structure also needs some to be equipped with mutually is simultaneously to control the traversing of each sley bar and swing.The lathe bed of warp knitting machine be warp knitting machine the most basic be also most important structure, core parts--the connecting rod rest mechanism of warp knitting machine not only will be within it installed, also will carry all machinery and the electrical equipment of main frame, this endures hardships to lathe bed structure firm and vibration resistance proposes very large requirement simultaneously.

Summary of the invention

Stable not firmly not enough in order to overcome structure, the invention provides a kind of lathe bed structure of multi-bar raschel machine.

The technical solution adopted for the present invention to solve the technical problems is: a kind of lathe bed structure of multi-bar raschel machine, comprise cargo tank structure, pneumatic element supporting construction and electronic element support structure, pneumatic element supporting construction and electronic element support structure are located on the left of cargo tank structure and right side respectively, cargo tank structure comprises lathe bed header board, plate after lathe bed, lathe bed base plate and upper cover plate, after lathe bed header board and lathe bed, plate is vertically welded on lathe bed base plate, fuel tank fagging is welded with between plate after lathe bed header board and lathe bed, fuel tank fagging is vertically welded with the fuel tank internal partition of equi-spaced apart, fuel tank internal partition is welded with upper cover plate, on upper cover plate, two ends are welded with large wallboard gripper shoe, upper cover plate between large wallboard gripper shoe is welded with some deadlight gripper shoes.

According to another embodiment of the invention, after comprising lathe bed further, plate both sides are welded with external partition, the vertical side of external partition is welded on lathe bed header board, external partition upper end and upper cover plate and large wallboard gripper shoe weld together, external partition mid portion and fuel tank fagging weld together, the direction being parallel to external partition is welded with reinforcement gusset and lower reinforcement gusset, and upper reinforcement gusset welds mutually with plate after large wallboard gripper shoe and lathe bed, and lower reinforcement gusset welds mutually with plate after under-chassis fagging and lathe bed.

According to another embodiment of the invention, comprise pneumatic element supporting construction further and comprise lathe bed left back board, left bottom plate and left roof, lathe bed left back board is welded on the external partition on the left side, left bottom plate connects lathe bed left back board and lathe bed header board, between lathe bed left back board and lathe bed header board and on left bottom plate, be welded with clamping plate one, lathe bed left back board is welded with left roof, left roof welds a block length quadrate support plate.

According to another embodiment of the invention, comprise electronic element support structure further and comprise lathe bed right back board and right top board, lathe bed right back board bottom welding is on lathe bed base plate, lathe bed right back board right edge is welded on the external partition on the right, one piece of gusset is welded between lathe bed right back board and the external partition on the right, clamping plate two are welded with between lathe bed right back board and lathe bed header board, clamping plate two and lathe bed right back board contact position, clamping plate two and lathe bed header board contact position are all welded with reinforcement gusset, right top board is welded with the inner side of lathe bed header board on the upside of lathe bed right back board, right top board is welded with gripper shoe.

According to another embodiment of the invention, trapezoidal shape lifting plate is all provided with after comprising lathe bed header board and lathe bed further bottom plate.

According to another embodiment of the invention, comprise lathe bed header board further and be provided with slot one, below slot one, be provided with slot two, on the right side of slot one, be provided with slot three.

According to another embodiment of the invention, after comprising lathe bed further, on the upside of plate, be provided with slot four, below slot four, be provided with slot five.

According to another embodiment of the invention, comprise lathe bed left back board further and be provided with slot six and slot seven.

According to another embodiment of the invention, comprise lifting intralamellar part further and be provided with slot eight.

The invention has the beneficial effects as follows, this structure lathe bed header board adopts the steel plate thickeied to run through total, then three parts: the cargo tank structure of mid portion, the flower comb pneumatic element supporting construction on the left side and spending of the right comb electronic element support structure, sheet material and the Welding Structure of different-thickness is adopted respectively, with lathe bed header board for benchmark progressively completes the welding of total according to the effect of various piece and required bearing behavior.Whole lathe bed structure is uniformly distributed the plate of various reinforcement structural strength, is similar to Mechanical Builds like one and strengthens the rigidity of structure again, make sound construction reliable.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is front perspective view of the present invention;

Fig. 2 is rear perspective view of the present invention;

Fig. 3 is supporting mechanism schematic diagram;

Fig. 4 is lathe bed front board structure schematic diagram;

Fig. 5 is lathe bed back plate structure schematic diagram;

Fig. 6 is fuel tank fagging structural representation;

Fig. 7 is fuel tank internal partition structural representation;

Fig. 8 is external partition structural representation.

1. lathe bed header boards in figure, 2. plate after lathe bed, 3. lathe bed base plate, 4. fuel tank fagging, 5. fuel tank internal partition, 6. upper cover plate, 7. external partition, 8. under-chassis fagging, 9. large wallboard gripper shoe, 10. deadlight gripper shoe, gusset is strengthened on 11., strengthen gusset 12. times, 13. lathe bed left back boards, 14. left bottom plates, 15. clamping plate one, 16. left roofs, 17. rectangle gripper shoes, 18. lathe bed right back boards, 19. gussets, 20. clamping plate two, 21. strengthen gusset, 22. right top boards, 23. gripper shoes, 24. lifting plates, 25. slots one, 26. slots two, 27. slots three, 28. slots four, 29. slots five, 30. slots six, 31. slots seven, 32. slots eight, 33. cargo tank structures, 34. pneumatic element supporting constructions, 35. electronic element support structures.

Detailed description of the invention

If Fig. 1-8 is structural representations of the present invention, a kind of lathe bed structure of multi-bar raschel machine, comprise cargo tank structure 33, pneumatic element supporting construction 34 and electronic element support structure 35, pneumatic element supporting construction 34 and electronic element support structure 35 are located on the left of cargo tank structure 33 and right side respectively, cargo tank structure 33 comprises lathe bed header board 1, plate 2 after lathe bed, lathe bed base plate 3 and upper cover plate 6, after lathe bed header board 1 and lathe bed, plate 2 is vertically welded on lathe bed base plate 3, fuel tank fagging 4 is welded with between plate 2 after lathe bed header board 1 and lathe bed, fuel tank fagging 4 is vertically welded with the fuel tank internal partition 5 of equi-spaced apart, fuel tank internal partition 5 is welded with upper cover plate 6, upper cover plate 6 width is equal to the spacing of plate 2 after lathe bed header board 1 and lathe bed, the last plan-position of upper cover plate 6 will lower than the upside 20mm of plate 2 after lathe bed header board 1 and lathe bed, its difference in height can be compensated by large wallboard gripper shoe 9 and deadlight gripper shoe 10, so just can ensure to assemble large wallboard gripper shoe 9, during deadlight gripper shoe 10, the weight of wallboard is not concentrated on upper cover plate 6, to be distributed to after lathe bed header board 1 and lathe bed on plate 2 simultaneously, enhance the rigidity of whole lathe bed structure.On upper cover plate 6, two ends are welded with large wallboard gripper shoe 9, upper cover plate 6 between large wallboard gripper shoe 9 is welded with some deadlight gripper shoes 10, after lathe bed, plate 2 both sides are welded with external partition 7, the vertical side of external partition 7 is welded on lathe bed header board 1, external partition 7 upper end and upper cover plate 6 and large wallboard gripper shoe 9 weld together, external partition 7 mid portion and fuel tank fagging 4 weld together, the direction being parallel to external partition 7 is welded with reinforcement gusset 11 and lower reinforcement gusset 12, upper reinforcement gusset 11 welds mutually with plate 2 after large wallboard gripper shoe 9 and lathe bed, lower reinforcement gusset 12 welds mutually with plate 2 after under-chassis fagging 8 and lathe bed, pneumatic element supporting construction 34 comprises lathe bed left back board 13, left bottom plate 14 and left roof 16, lathe bed left back board 13 is welded on the external partition 7 on the left side, left bottom plate 14 connects lathe bed left back board 13 and lathe bed header board 1, between lathe bed left back board 13 and lathe bed header board 1, and on left bottom plate 14, be welded with clamping plate 1, ensure the perpendicularity of lathe bed left back board 13, lathe bed left back board 13 is welded with left roof 16, left roof 16 welds a block length quadrate support plate 17, due to the pneumatic element small volume of the required carrying of flower comb pneumatic element supporting construction 32 on the left side, weight is also lighter, in order to alleviate the load of lathe bed left back board 13, left roof 16 adopts the steel plate of about 10mm, then on left roof 16, a block length square plate is welded as gripper shoe 17, not only also compensates for the difference in height of left roof 16 and lathe bed header board 1 upper limb for supporting pneumatic element simultaneously, lathe bed header board 1 is made to participate in carrying pneumatic element, thus reduce the load force of left roof 16.Because the flower comb quantity on multi-bar raschel machine is a lot of and each colored comb needs outfit stepper motor traversing to control, therefore whole flower comb electronic component volume and weight is all larger, electronic element support structure 35 comprises lathe bed right back board 18 and right top board 22, the steel plate that lathe bed right back board 18 adopts 30mm thick, bottom welding is on lathe bed base plate 3, lathe bed right back board 18 right edge is welded on the external partition 7 on the right, one piece of gusset 19 is welded between lathe bed right back board 18 and the external partition 7 on the right, clamping plate 2 20 are welded with between lathe bed right back board 18 and lathe bed header board 1, clamping plate 2 20 are used for strengthening the rigidity of whole right support structure, clamping plate 2 20 are drilled with screwed hole for connecting foundation bolt, in order to control the stress deformation of clamping plate 20, clamping plate 2 20 and lathe bed right back board 18 contact position, clamping plate 2 20 and lathe bed header board 1 contact position are all welded with strengthens gusset 21, right top board 22 is welded with the inner side of lathe bed header board 1 on the upside of lathe bed right back board 18, right top board 22 is welded with gripper shoe 23, not only also compensates for the difference in height of right top board 22 and lathe bed header board 1 upper limb for supporting flower comb electronic component simultaneously, lathe bed header board 1 is made to participate in carrying flower comb electronic component, thus reduce the load force of right top board 22, trapezoidal shape lifting plate 24 is all provided with bottom plate 2 after lathe bed header board 1 and lathe bed, lathe bed header board 1 is provided with slot 1, slot 2 26 is provided with below slot 1, slot 3 27 is provided with on the right side of slot 1, slot 4 28 is provided with on the upside of plate 2 after lathe bed, slot 4 28 is transferred and is provided with slot 5 29, lathe bed left back board 13 is provided with slot 6 30 and slot 7 31, lifting plate 24 inside is provided with slot 8 32.

Lathe bed header board 1 as shown in Figure 4, this plate is in front side in the position of lathe bed, weave cotton cloth by the principle of tractive before machine according to Raschel looms, toggle is by being encased in lathe bed on front side of lathe bed, therefore on lathe bed header board 1, cutting is applicable to the slot 1 installing toggle, the size of slot 1 will be convenient to crank parts and enter in lathe bed by lathe bed header board 1 smoothly, but is less than the pedestal base of toggle; The quantity X of slot 1 equals to hold shaft assembly (be generally 1, this assembly is connected with main transmission) to add the quantity (determining the quantity of the toggle used according to the width of warp knitting machine) of toggle; In addition, the slot 2 26 that the below mid portion of lathe bed header board 1 needs cutting two small-sized, for fork truck sling warp knitting machine time fork pass through, two hole sizes and fork truck fork match, and spacing need with the match specifications of fork truck; Cut two slots 3 27 for the ease of postorder assembling simultaneously; Because lathe bed header board 1 supports all toggles and stressed comparatively large in whole welding structural element, therefore sheet material need use quality carbon structural steel, and thickness is more than or equal to 30mm.

After lathe bed, plate 2 as shown in Figure 5, and in order to ensure that support strength is consistent, therefore after lathe bed, plate 2 also adopts the steel plate of 30mm thickness, and this plate length is shorter than lathe bed header board 1, but width is consistent; Slot 4 28 is cut on the upside of plate 2 after lathe bed, slot 4 28 for installing window lid (feature for this reason slot 4 28 quantity with to install slot 1 quantity of toggle consistent and weld afterwards that position is corresponding) so that can unload when machine breaks down window lid to check toggle situation and without the need to toggle is disassembled inspection from lathe bed header board 1.Cut two small-sized slots 5 29 on the downside of plate 2 after lathe bed, for fork truck sling warp knitting machine time fork pass through, these two holes are consistent with above-mentioned shape spacing.

As shown in Figure 2, cutting slot 6 30, is also convenient to the while of alleviating the weight of sheet material observe the end shaft assembly installed from the leftmost slot 1 of lathe bed header board 1 lathe bed left back board 13; Vertical slot 7 31 for mair motor belt pulley and end shaft assembly belt pulley between belt pass through.Be welded on by lathe bed left back board 13 on the external partition 7 on the left side, left bottom plate 14 connects lathe bed left back board 13 and lathe bed header board 1.

Lathe bed base plate 3 not only carries the weight of whole weldment and other assemblies of warp knitting machine, also will be the benchmark in welding process simultaneously, therefore sheet metal thickness is generally selected between 35mm ~ 40mm, the maximum gauge of the toggle that this plate width adopts according to warp knitting machine is selected, and is generally that after the maximum gauge of toggle adds upper bed header board 1 and lathe bed, the thickness of slab sum of plate 2 adds that one is installed surplus and is the reserved surplus of welding.

Fuel tank fagging 4 as shown in Figure 6, plate side parallelogram, 60 °, oblique angle " a < 90 °; Two sides spacing equals the spacing after lathe bed header board 1 and lathe bed between plate 2.This plate is for carrying the lubricating oil in lathe bed, and therefore thickness of slab only needs between 15mm ~ 20mm.

As shown in Figure 7, match with fuel tank fagging 4 gradient, upper flat, for supporting upper cover plate 6 by bottom surface for lathe bed internal partition 5; Acute angle place is drilled with circular hole and passes through for oil pipe; This plate is used for each toggle of interval, simultaneously because this plate four sides to be welded on after lathe bed header board 1, lathe bed on plate 2, fuel tank fagging 4 and upper cover plate 6 respectively, plays the effect strengthening lathe bed structure stabilized soil pavement.

As shown in Figure 8, this plate is welded on the right and left of plate 2 after lathe bed to external partition 7 respectively, is closed by lathe bed cargo tank together with plate 2, fuel tank fagging 4 and upper cover plate 6 after lathe bed header board 1, lathe bed; Coordinate with cargo tank internal structure on the right side of this plate, left side extends out, and bottom and under-chassis fagging 8 weld together the effect playing reinforcement, therefore this plate thickness should " 25mm.

Under-chassis fagging 8 is drilled with screwed hole, for junctor foot bolt.

All be provided with trapezoidal shape lifting plate 24 after lathe bed header board 1 and lathe bed bottom plate 2, this plate be trapezoidal shape, and the small-sized slot 8 32 of inner cutting, and which increasing can welding region, strengthens and lifts the structural strength of plate 24 on lathe bed; Five screwed holes are respectively drilled with to adapt to the board of various boom hoisting on plate both sides.

More than illustrate just illustrative for the purpose of the present invention; and nonrestrictive, those of ordinary skill in the art understand, when not departing from the spirit and scope that claims limit; many amendments, change or equivalence can be made, but all will fall within the scope of protection of the present invention.

Claims (9)

1. the lathe bed structure of a multi-bar raschel machine, comprise cargo tank structure (33), pneumatic element supporting construction (34) and electronic element support structure (35), pneumatic element supporting construction (34) and electronic element support structure (35) are located at cargo tank structure (33) left side and right side respectively, described cargo tank structure comprises lathe bed header board (1), plate (2) after lathe bed, lathe bed base plate (3) and upper cover plate (6), it is characterized in that, after described lathe bed header board (1) and lathe bed, plate (2) is vertically welded on lathe bed base plate (3), after lathe bed header board (1) and lathe bed between plate (2) on be welded with fuel tank fagging (4), fuel tank fagging (4) is vertically welded with the fuel tank internal partition (5) of equi-spaced apart, fuel tank internal partition (5) is welded with upper cover plate (6), the upper two ends of described upper cover plate (6) are welded with large wallboard gripper shoe (9), upper cover plate (6) between large wallboard gripper shoe (9) is welded with some deadlight gripper shoes (10).

2. the lathe bed structure of multi-bar raschel machine according to claim 1, it is characterized in that, after described lathe bed, plate (2) both sides are welded with external partition (7), the vertical side of external partition (7) is welded on lathe bed header board (1), external partition (7) upper end and upper cover plate (6) and large wallboard gripper shoe (9) weld together, external partition (7) mid portion and fuel tank fagging (4) weld together, the direction being parallel to external partition (7) is welded with reinforcement gusset (11) and lower reinforcement gusset (12), described upper reinforcement gusset (11) is welded mutually with plate (2) after large wallboard gripper shoe (9) and lathe bed, lower reinforcement gusset (12) is welded mutually with plate (2) after under-chassis fagging (8) and lathe bed.

3. the lathe bed structure of multi-bar raschel machine according to claim 1, it is characterized in that, described pneumatic element supporting construction (34) comprises lathe bed left back board (13), left bottom plate (14) and left roof (16), described lathe bed left back board (13) is welded on the external partition (7) on the left side, left bottom plate (14) connects lathe bed left back board (13) and lathe bed header board (1), between described lathe bed left back board (13) and lathe bed header board (1), and on left bottom plate (14), be welded with clamping plate one (15), described lathe bed left back board (13) is welded with left roof (16), left roof (16) welds a block length quadrate support plate (17).

4. the lathe bed structure of multi-bar raschel machine according to claim 1, it is characterized in that, described electronic element support structure (35) comprises lathe bed right back board (18) and right top board (22), lathe bed right back board (18) bottom welding is on lathe bed base plate (3), lathe bed right back board (18) right edge is welded on the external partition (7) on the right, one piece of gusset (19) is welded between lathe bed right back board (18) and the external partition (7) on the right, clamping plate two (20) are welded with between lathe bed right back board (18) and lathe bed header board (1), described clamping plate two (20) and lathe bed right back board (18) contact position, clamping plate two (20) and lathe bed header board (1) contact position are all welded with strengthens gusset (21), right top board (22) is welded with the inner side of lathe bed header board (1) in described lathe bed right back board (18) upside, described right top board (22) is welded with gripper shoe (23).

5. the lathe bed structure of multi-bar raschel machine according to claim 1, is characterized in that, after described lathe bed header board (1) and lathe bed, plate (2) bottom is all provided with trapezoidal shape lifting plate (24).

6. the lathe bed structure of multi-bar raschel machine according to claim 1, it is characterized in that, described lathe bed header board (1) is provided with slot one (25), slot one (25) below is provided with slot two (26), and slot one (25) right side is provided with slot three (27).

7. the lathe bed structure of multi-bar raschel machine according to claim 1, is characterized in that, after described lathe bed, plate (2) upside is provided with slot four (28), and slot four (28) below is provided with slot five (29).

8. the lathe bed structure of multi-bar raschel machine according to claim 3, is characterized in that, described lathe bed left back board (13) is provided with slot six (30) and slot seven (31).

9. the lathe bed structure of multi-bar raschel machine according to claim 5, is characterized in that, described lifting plate (24) inside is provided with slot eight (32).