CN204903180U - Adjustable switching device of single -point for forklift steering bridge pressure test - Google Patents

Abstract

The utility model relates to an adjustable switching device of single -point for forklift steering bridge pressure test. Including beam assembly, beam assembly's top is equipped with the pressure head that links to each other with the power take off head, and beam assembly's below is equipped with the ha fu who connects beam assembly and steering axle, and beam assembly is last still to be equipped with and to make under the beam assembly plane and steering axle go up vertical adjusting screw that the plane is in the parastate and adjust the horizontal adjusting screw who breathes out husband and the horizontal beam assembly 0 of pressure head. According to the above technical scheme, the utility model discloses utilize vertical adjusting screw, adjust to beam assembly's lower plane and go up the parallel position in plane with forklift steering bridge, utilize horizontal adjusting screw to adjust beam assembly's position to realizing the horizontal change of pressure head position, the centre of turning circle line of guaranteeing the pressure head is in same vertical plane with steering axle's centre of turning circle line in, having avoided horizontal unbalance loading phenomenon in the loading procedure, satisfied test requirement, experimental precision has effectively been guaranteed by changing the single -point 2 o'clock into to application of force mode.

Description

Forklift steering bridge strength test single-point is adjustable switching device

Technical field

The utility model relates to fork truck field, is specifically related to the adjustable switching device of a kind of forklift steering bridge strength test single-point.

Background technology

Forklift steering bridge is as one of the main stressed member of fork truck, and whether its intensity meets the demands is directly connected to the reliability and security of fork truck.Easily there is permanent strain when its intensity is not enough in forklift steering bridge, causes tire premature wear, steering cylinder leakage of oil, turns to the situation generations such as malfunctioning, pontic fracture can occur time serious, cause security incident.Therefore, testing inspection is carried out to the intensity of forklift steering bridge and seem particularly necessary.According to standard regulation, the applying mode of test load must be consistent with the force way of steeraxle on car load.

At present, domestic in the strength test of forklift steering bridge, general hydraulic cylinder is as equipment dynamic output unit, normally used switching device is: adopt a cross crossbeam, the cross short end of crossbeam is connected with the vehicle frame stress point of tested drive axle, cross long end is connected with the Power output head of testing table, forms the switching device of 2 forces, adopt such device mainly to there is following weak point:

1, virtual condition simulation is difficult to meet the requirement of standard to test: owing to adopting two point form switching device, easy generation " seesaw " effect, cause certain one side elder generation and absorption surface of crossbeam cross long end, thus directly the power of unit head is directly passed on drive axle straight down, cause the position of stress point and testing requirements and real vehicle situation to be misfitted.

2, frock quantity is of a great variety: because drive axle physical dimension variation range is comparatively large, and the test of often kind of steeraxle needs to prepare a set of switching device separately, use, deposit, safeguard, maintain all more difficult.

3, poor stability: the unbalance loading that " seesaw " effect causes, promotes steeraxle and moves vertically in process of the test, easily makes steeraxle depart from and supports, form potential safety hazard.

4, testing crew labour intensity is large: support for avoiding the axially-movable of steeraxle to depart from, and testing crew takes to carve in process of the test pays close attention to its displacement variable, and repeatedly adjusts according to the situation of change in displacement.

5, test accuracy is low: the forced position of workpiece is uncontrollable, and 2 force poor synchronization, cause test figure inaccurate.

6, easily device damage is caused: the transversal displacement of test specimen can cause oil cylinder unbalance loading, thus damage equipment.

7, test specimen clamping is loaded down with trivial details: during each clamping workpiece, needs first to be mounted to by test piece by two point form switching device, then adjusts the height of equipment dynamic head, in the very accurate situation of adjustment, unit head can be connected on switching device.

Utility model content

The purpose of this utility model is to provide a kind of forklift steering bridge strength test single-point adjustable switching device, and this switching device solves the problem of 2 force poor synchronization, and measuring accuracy is high simultaneously, is suitable for the test of multiple forklift steering bridge.

For achieving the above object, the utility model have employed following technical scheme: comprise the crossbeam assembly being placed in and being connected above steeraxle and with steeraxle, the top of crossbeam assembly is provided with the pressure head be connected with Power output head, the below of crossbeam assembly is provided with the Hough of connecting cross beam assembly and steeraxle, described crossbeam assembly is also provided with the longitudinal direction making plane on crossbeam assembly lower plane and steeraxle be in parastate to adjust screw and regulate the transverse direction of Hough and the horizontal relative position of pressure head to adjust screw, by the adjustment laterally adjusting screw, the centre of gyration of the centre of gyration of pressure head and steeraxle axle head is in same vertical guide.

Described crossbeam assembly comprises the base plate arranged in horizontal direction, described base plate entirety is in cruciform, the long slab different by length and short slab form, described long slab is provided with two blocks of side plates perpendicular to long slab along its length, spacing between two blocks of side plates and the width of long slab match, the top of two blocks of side plates is provided with the top board of connection two blocks of side plates, and described pressure head is fixed on top board.

The first gusset of both connections is provided with between two blocks of described side plates, first gusset is positioned at the centre position of two blocks of side plates and the first gusset is provided with lightening hole, the both sides of the first gusset are respectively equipped with the spiral shell plate of fixed lateral adjustment screw, spiral shell plate parallels setting with the first gusset, described transverse direction adjustment screw vertically runs through spiral shell plate and arranges, described long slab is provided with two groups of kidney slots, two groups of described kidney slots are separately positioned on the both sides of the first gusset, the flute length direction of kidney slot and the length direction of long slab match, and often group kidney slot be arranged three in parallel, four the first threaded holes are also provided with between two groups of kidney slots.

Described side plate entirety, in trapezoidal, two blocks of described side plates is respectively equipped with hole for hoist, the outer plate surface of two blocks of described side plates be provided with the 3rd gusset both being connected between short slab.

The center of described top board is provided with through hole, the periphery of through hole is provided with threaded mounting hole, described pressure head comprises a column, the upper and lower surface of column is respectively equipped with the first boss and the second boss, the center of the first boss is provided with the ball-and-socket shape power input interface matched with unit head shape, the second described boss matches with the through hole of top board, and the periphery of column arranges the countersunk screw hole matched with threaded mounting hole.

The two ends of described short slab are respectively equipped with the second kidney slot of fixing longitudinally adjustment screw, and the direction that the setting direction of the second kidney slot and kidney slot are arranged matches.

Described Hough is connected with base plate by web joint assembly, described web joint assembly by the first web joint be arranged on above base plate, be arranged on the second web joint below base plate and be connected with the second web joint and through base plate and the first web joint and with laterally adjust the gag lever post that screw forms against coordinating and form, the first described web joint is connected by bolt with the second web joint.

The first described web joint and the second web joint are rectangular steel plates, the center of the second web joint is provided with the stepped hole connecting gag lever post, second web joint is also provided with the threaded hole be connected with the first web joint and the countersunk screw hole be connected with Hough, the center of the first web joint is provided with the first through hole be convenient to gag lever post and passed through, and the first web joint is also provided with the bolt connecting hole corresponding with the second web joint upper screwed hole position.

Described gag lever post is two-part Step Shaft, comprise the first diameter segment of fixing with the second web joint and through base plate and the first web joint and with laterally adjust screw and form Second bobbin diameter section against coordinating, the diameter of described Second bobbin diameter section is greater than the first diameter segment, and Second bobbin diameter section is provided with the axle body that the cross section of matching with kidney slot is kidney-shaped.

Described Hough arranges two, be used for respectively connecting two axle heads being connected with vehicle frame of steeraxle, Hough comprises upper Hough by cooperatively interacting and lower Hough, and described upper Hough is connected with the second web joint by bolt, and described lower Hough is connected with upper Hough by bolt.

As shown from the above technical solution, the utility model utilizes and longitudinally adjusts screw, the lower plane of crossbeam assembly is adjusted to and parallel plane position on forklift steering bridge, laterally adjustment screw is utilized to regulate the position of crossbeam assembly, thus realize the horizontal change of ram position, ensure that the centre of gyration line of pressure head and the centre of gyration line of steeraxle are in same vertical plane, avoid horizontal unbalance loading phenomenon in loading procedure, meet testing requirements, force mechanism changes single-point into by 2, effectively ensure that test accuracy.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model;

Fig. 2 is front view of the present utility model;

Fig. 3 is the vertical view of Fig. 2;

Fig. 4 is using state figure of the present utility model;

Fig. 5 is the structural representation of the utility model crossbeam assembly;

Fig. 6 is the structural representation of the utility model base plate;

Fig. 7 is the perspective view of the utility model pressure head;

Fig. 8 is the sectional view of the utility model pressure head;

Fig. 9 is the structural representation of the utility model first web joint;

Figure 10 is the structural representation of the utility model second web joint;

Figure 11 is the structural representation of the utility model gag lever post;

Figure 12 is the fit structure schematic diagram of the utility model second web joint and gag lever post;

Figure 13 is the structural representation of Hough on the utility model;

Figure 14 is the structural representation of Hough under the utility model.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described further:

As Fig. 1, Fig. 2, Fig. 3, the adjustable switching device of a kind of forklift steering bridge strength test single-point shown in Fig. 4, comprise the crossbeam assembly 600 being placed in and being connected above steeraxle 2 and with steeraxle 2, the top of crossbeam assembly 600 is provided with the pressure head 700 be connected with Power output head, the below of crossbeam assembly 600 is provided with the Hough 800 of connecting cross beam assembly 600 and steeraxle 2, crossbeam assembly 600 is also provided with the longitudinal direction making plane on crossbeam assembly 600 lower plane and steeraxle 2 be in parastate to adjust screw 910 and regulate Hough 800 to adjust screw 920 with the transverse direction of the horizontal relative position of pressure head 700, by the adjustment laterally adjusting screw 920, the centre of gyration of the centre of gyration of pressure head 700 and steeraxle 2 axle head is in same vertical guide.

Further, as shown in Figure 5, Figure 6, crossbeam assembly 600 comprises the base plate 610 arranged in horizontal direction, base plate 610 entirety is in cruciform, be made up of the different long slab of length 611 and short slab 612, the spacing between long slab 611 is provided with along its length perpendicular to two blocks of side plates, 620, two blocks of side plates 620 of long slab 611 and the width of long slab 611 match, the top of two blocks of side plates 620 is provided with the top board 630 of connection two blocks of side plates 620, and pressure head 700 is fixed on top board 630.It should be noted that base plate 610 is one block of criss-cross whole plate, be just split as long slab 611 and short slab 612 structure for convenience of explanation, be intended to illustrate that base plate 610 is for asymmetrical cross plate.

Further, the first gusset 640 of both connections is provided with between two blocks of side plates 620, first gusset 640 is positioned at the centre position of two blocks of side plates 620 and the first gusset 640 is provided with lightening hole 641, the both sides of the first gusset 640 are respectively equipped with the spiral shell plate 650 of fixed lateral adjustment screw 920, spiral shell plate 650 parallels setting with the first gusset 640, horizontal adjustment screw 920 vertically runs through spiral shell plate 650 and arranges, long slab 611 is provided with two groups of kidney slots 613, two groups of kidney slots 613 are separately positioned on the both sides of the first gusset 640, the flute length direction of kidney slot 613 and the length direction of long slab 611 match, and often group kidney slot 613 be arranged three in parallel, four the first threaded holes 615 are also provided with between two groups of kidney slots 613.

Further, side plate 620 entirety in trapezoidal, two blocks of side plates 620 is respectively equipped with hole for hoist 621, the outer plate surface of two blocks of side plates 620 be provided with the 3rd gusset 660 both being connected between short slab 612.

Further, the center of top board 630 is provided with through hole 631, the periphery of through hole 631 is provided with threaded mounting hole 632, as shown in Figure 7, Figure 8, pressure head 700 comprises a column 710, the upper and lower surface of column 710 is respectively equipped with the first boss 720 and the second boss 730, the center of the first boss 720 is provided with the ball-and-socket shape power input interface 721 matched with unit head shape, second boss 730 matches with the through hole 631 of top board 630, and the periphery of column 710 arranges the countersunk screw hole 711 matched with threaded mounting hole 632.

Further, the two ends of short slab 612 are respectively equipped with the direction that the setting direction of the second kidney slot 614, second kidney slot 614 of fixing longitudinally adjustment screw 910 and kidney slot 613 arrange and match.

Further, as shown in Fig. 9, Figure 10, Figure 11, Figure 12, Hough 800 is connected with base plate 610 by web joint assembly, web joint assembly by the first web joint 830 be arranged on above base plate 610, be arranged on the second web joint 840 below base plate 610 and be connected with the second web joint 840 and through base plate 610 and the first web joint 830 and with laterally adjust the gag lever post 850 that screw 920 forms against coordinating and form, the first web joint 830 is connected by bolt with the second web joint 840.

Further, first web joint 830 and the second web joint 840 are rectangular steel plates, the center of the second web joint 840 is provided with the stepped hole 841 connecting gag lever post 850, second web joint 840 is also provided with the threaded hole 842 be connected with the first web joint 830 and the countersunk screw hole 843 be connected with Hough 800, the center of the first web joint 830 is provided with to be convenient to the first through hole 831, first web joint 830 that gag lever post 850 passes through also is provided with the bolt connecting hole 832 corresponding with the second web joint 840 upper screwed hole 842 position.

Further, as shown in figure 11, gag lever post 850 is two-part Step Shaft, comprise the first diameter segment 851 of fixing with the second web joint 840 and through base plate 610 and the first web joint 830 and with laterally adjust screw 920 and form Second bobbin diameter section 852 against coordinating, the diameter of Second bobbin diameter section 852 is greater than the first diameter segment 851, and Second bobbin diameter section 852 is provided with the axle body 853 that the cross section of matching with kidney slot 613 is kidney-shaped, outer peripheral face namely along Second bobbin diameter section 852 forms two planes respectively to internal cutting, two planes and original arc-shaped circumference form the axle body of a kidney-shaped, the kidney slot be used for by base plate is arranged, realize the object of accurate guide and limit.

Hough 800 arranges two, be used for respectively connecting two axle heads being connected with vehicle frame of steeraxle 2, steeraxle is generally provided with four axle heads, and two axle heads are connected with vehicle frame, another two axle heads are connected with tire, and Hough is here fixing two axle heads be connected with vehicle frame mainly.As shown in Figure 13, Figure 14, Hough 800 comprises upper Hough 810 by cooperatively interacting and lower Hough 820, and upper Hough 810 is connected with the second web joint 840 by bolt, and lower Hough 820 is connected with upper Hough 810 by bolt.

Installation process of the present utility model and principle of work as follows:

1, the installation of forklift steering bridge: select corresponding upper Hough and lower Hough, upper Hough is connected on switching device, then overall being sling by switching device is placed on forklift steering bridge, utilizes bolt to be connected with upper Hough by lower Hough; Utilize and longitudinally adjust screw, the lower plane of crossbeam assembly is adjusted to and parallel plane position on forklift steering bridge, now unclamp the trip bolt on the first web joint, laterally adjustment screw is utilized to regulate the position of crossbeam assembly, thus realize the horizontal change of ram position, ensure that the centre of gyration line of pressure head and the centre of gyration line of steeraxle are in same vertical plane; Then the trip bolt on fastening first web joint, unclamps and longitudinally adjusts screw, makes longitudinally to adjust plane on its end of screw and forklift steering bridge and keeps suitable distance, can complete the installation of forklift steering bridge on switching device.

2, the adaptation of different forklift steering bridge lateral dimension: the horizontal relative position regulating left Hough and right Hough and pressure head, ensure that the axle head centre of gyration of pressure head and steeraxle is in same vertical guide, avoid horizontal unbalance loading phenomenon in loading procedure, meet testing requirements.

3, the adaptation of different steeraxle load axle head size: by changing corresponding upper Hough and lower Hough, the load axle head size of different forklift steering bridge can be met.

4, steeraxle test: pressure puts on pressure head by equipment dynamic delivery, through this switching device, automatically pressure is pro rata distributed on the stressed axle head of steeraxle both sides, ratio and the car load force-bearing situation of the stressed size of forklift steering bridge both sides load axle head fit like a glove, take single-point type force way, test force and travel parameters easy to adjust, in process of the test, only need to carry out adjustment to the parameter of single-point can meet testing requirements.

5, the raising of test accuracy: this apparatus structure rigidity is high, the distortion in process of the test can not produce any impact to test findings; Single-point exerts a force without unbalance loading, guarantees that applied test force can be assigned on the load axle of steeraxle both sides accurately, and force will be caused incorrect because of " seesaw " effect, thus improves measuring accuracy.

6, the raising of security: adopt the present invention, because of without the impact of horizontal unbalance loading on process of the test, eliminate the hidden danger of tumbling because unbalance loading causes forklift steering bridge in process of the test; Because affecting without longitudinal unbalance loading, avoiding steeraxle axle head and departing from the danger supported.

The beneficial effects of the utility model are: 1) test accuracy is high: enough structural rigidities, force mechanism change single-point into by 2, all effectively ensure that test accuracy; 2) the utility model structure is simple, and the installation adjustment of tested workpiece is very convenient; 3) experimental safe is good: eliminate the horizontal unbalance loading in process of the test and longitudinal unbalance loading, eliminate potential safety hazard; 4) strong adaptability of test unit: by changing corresponding upper Hough and lower Hough, can realize one-object-many-purposes, meets the strength test demand of 1 ~ 10t forklift steering bridge.

Above-described embodiment is only be described preferred implementation of the present utility model; not scope of the present utility model is limited; under the prerequisite not departing from the utility model design spirit; the various distortion that those of ordinary skill in the art make the technical solution of the utility model and improvement, all should fall in protection domain that the utility model claims determine.

Claims (10)

1. the adjustable switching device of forklift steering bridge strength test single-point, it is characterized in that: comprise and be placed in steeraxle (2) top and the crossbeam assembly (600) be connected with steeraxle (2), the top of crossbeam assembly (600) is provided with the pressure head (700) be connected with Power output head, the below of crossbeam assembly (600) is provided with the Hough (800) of connecting cross beam assembly (600) and steeraxle (2), described crossbeam assembly (600) is also provided with the longitudinal direction making crossbeam assembly (600) lower plane and the upper plane of steeraxle (2) be in parastate to adjust screw (910) and regulate Hough (800) to adjust screw (920) with the transverse direction of pressure head (700) horizontal relative position, by the adjustment laterally adjusting screw (920), the centre of gyration of the centre of gyration of pressure head (700) and steeraxle (2) axle head is in same vertical guide.

2. the adjustable switching device of forklift steering bridge strength test single-point according to claim 1, it is characterized in that: described crossbeam assembly (600) comprises the base plate (610) arranged in horizontal direction, described base plate (610) entirety is in cruciform, the long slab (611) different by length forms with short slab (612), described long slab (611) is provided with two pieces of side plates (620) perpendicular to long slab (611) along its length, spacing between two pieces of side plates (620) and the width of long slab (611) match, the top of two pieces of side plates (620) is provided with the top board (630) of connection two pieces of side plates (620), described pressure head (700) is fixed on top board (630).

3. the adjustable switching device of forklift steering bridge strength test single-point according to claim 2, it is characterized in that: the first gusset (640) being provided with both connections between two pieces of described side plates (620), first gusset (640) is positioned at the centre position of two pieces of side plates (620) and the first gusset (640) is provided with lightening hole (641), the both sides of the first gusset (640) are respectively equipped with the spiral shell plate (650) of fixed lateral adjustment screw (920), spiral shell plate (650) parallels setting with the first gusset (640), described transverse direction adjustment screw (920) vertically runs through spiral shell plate (650) and arranges, described long slab (611) is provided with two groups of kidney slots (613), two groups of described kidney slots (613) are separately positioned on the both sides of the first gusset (640), the flute length direction of kidney slot (613) and the length direction of long slab (611) match, and often organize kidney slot (613) and be arranged three in parallel, four the first threaded holes (615) are also provided with between two groups of kidney slots (613).

4. the adjustable switching device of forklift steering bridge strength test single-point according to claim 2, it is characterized in that: described side plate (620) entirety is in trapezoidal, two pieces of described side plates (620) are respectively equipped with hole for hoist (621), the outer plate surface of two pieces of described side plates (620) be provided with the 3rd gusset (660) both being connected between short slab (612).

5. the adjustable switching device of forklift steering bridge strength test single-point according to claim 2, it is characterized in that: the center of described top board (630) is provided with through hole (631), the periphery of through hole (631) is provided with threaded mounting hole (632), described pressure head (700) comprises a column (710), column (710) upper, lower surface is respectively equipped with the first boss (720) and the second boss (730), the center of the first boss (720) is provided with ball-and-socket shape power input interface (721) matched with unit head shape, described the second boss (730) matches with the through hole (631) of top board (630), the periphery of column (710) arranges the countersunk screw hole (711) matched with threaded mounting hole (632).

6. the adjustable switching device of forklift steering bridge strength test single-point according to claim 2, it is characterized in that: the two ends of described short slab (612) are respectively equipped with fixing the second kidney slot (614) longitudinally adjusting screw (910), and the direction that the setting direction of the second kidney slot (614) and kidney slot (613) are arranged matches.

7. the adjustable switching device of forklift steering bridge strength test single-point according to claim 2, it is characterized in that: described Hough (800) is connected with base plate (610) by web joint assembly, described web joint assembly is by the first web joint (830) being arranged on base plate (610) top, be arranged on second web joint (840) of base plate (610) below, and to be connected with the second web joint (840) and through base plate (610) and the first web joint (830) and with laterally adjust screw (920) and form and form against the gag lever post coordinated (850), described the first web joint (830) is connected by bolt with the second web joint (840).

8. the adjustable switching device of forklift steering bridge strength test single-point according to claim 7, it is characterized in that: described the first web joint (830) and the second web joint (840) are rectangular steel plates, the center of the second web joint (840) is provided with the stepped hole (841) connecting gag lever post (850), second web joint (840) is also provided with the threaded hole (842) be connected with the first web joint (830) and the countersunk screw hole (843) be connected with Hough (800), the center of the first web joint (830) is provided with the first through hole (831) be convenient to gag lever post (850) and passed through, first web joint (830) is also provided with the bolt connecting hole (832) corresponding with the second web joint (840) upper screwed hole (842) position.

9. the adjustable switching device of forklift steering bridge strength test single-point according to claim 7 or 8, it is characterized in that: described gag lever post (850) is two-part Step Shaft, comprise the first diameter segment (851) of fixing with the second web joint (840) and through base plate (610) and the first web joint (830) and with laterally adjust screw (920) and form Second bobbin diameter section (852) against coordinating, the diameter of described Second bobbin diameter section (852) is greater than the first diameter segment (851), and Second bobbin diameter section (852) is provided with the axle body (853) that the cross section of matching with kidney slot (613) is kidney-shaped.

10. the adjustable switching device of forklift steering bridge strength test single-point according to claim 7, it is characterized in that: described Hough (800) arranges two, be used for respectively connecting steeraxle (2) two axle heads being connected with vehicle frame, Hough (800) comprises upper Hough (810) by cooperatively interacting and lower Hough (820), described upper Hough (810) is connected with the second web joint (840) by bolt, and described lower Hough (820) is connected with upper Hough (810) by bolt.