CN208498504U - Gypsum hollow lath transport vehicle - Google Patents

Abstract

The utility model discloses a kind of gypsum hollow lath transport vehicles, it applies in gypsum hollow lath processing equipment field, its key points of the technical solution are that: the fixed link being parallel to each other including two, two fixed links are connected by first crossbar, two fixed links are equipped with vertical support rod far from one end of first crossbar, the lower end of support rod is equipped with loading plate, the connecting rod that oriented close support rod direction extends obliquely downward is all provided in two fixed links, two connecting rods pass through center axis connection far from one end of fixed link, the both ends of central axis are rotatably connected to the idler wheel contradicted with ground, two fixed links are respectively connected with close to one end of first crossbar to the drive rod for tilting upward extension far from fixed link direction, loading plate length is greater than the width of gypsum hollow lath, its advantage is that: reduce labour, reduce production cost.

Description

Gypsum hollow lath transport vehicle

Technical field

The utility model relates to gypsum hollow lath processing equipment field, in particular to a kind of gypsum hollow lath transport Vehicle.

Background technique

Gypsum hollow lath is to add appropriate cement or flyash using building gypsum as main material, while being added a small amount of Reinforcing fiber mixes and stirs, moulding by casting, core pulling, light weight board made of the processes such as drying through slurry, is mainly used for the non-of building and holds Weight interior wall, its main feature is that being not necessarily to keel.

As shown in fig. 7, in the actual processing process, after slurry solidifies in board mold, operator opens mold, then The gypsum hollow lath 41 in mold is hung out with driving, preset on ground there are two the crossbeam 4 being parallel to each other, operator's controls Driving places gypsum hollow lath 41 on two crossbeams 4 vertically, then gypsum hollow lath 41 is carried to storage together by multiple people Ground is deposited, is again provided with crossbeam 4 to storage, gypsum hollow lath 41 is placed on crossbeam 4 by operator vertically to be dried, and stone is avoided The case where cream hollow lath 41 directly contacts with ground and generates dampness.This mode of transport needs multiple operators to match jointly It closes, so that labour increases, to increase production cost.

Utility model content

The purpose of the utility model is to provide a kind of gypsum hollow lath transport vehicles, its advantage is that: labour is reduced, is dropped Low production cost.

The above-mentioned technical purpose of the utility model has the technical scheme that a kind of gypsum hollow lath Transport vehicle, the fixed link being parallel to each other including two, two fixed links are connected by first crossbar, two fixed links One end far from first crossbar is equipped with vertical support rod, and the lower end of the support rod is equipped with loading plate, two fixations The connecting rod that oriented close support rod direction extends obliquely downward is all provided on bar, two connecting rods pass through far from one end of fixed link Center axis connection, the both ends of the central axis are rotatably connected to the idler wheel contradicted with ground, and two fixed links are close to the One end of one cross bar is respectively connected with to the drive rod for tilting upward extension far from fixed link direction, and the loading plate length is greater than stone The width of cream hollow lath.

Through the above technical solutions, operator is first lifted drive rod when transporting gypsum hollow lath, keep loading plate downward It tilts and is inserted into the spacing on gypsum hollow lath and ground, then drive rod is pushed to support gypsum hollow lath with support rod Touching, since loading plate length is greater than the width of gypsum hollow lath, when operator continues downward drive rod, loading plate is by gypsum Hollow lath is lifted away from crossbeam, and gypsum hollow lath is made to be poured over to topple over and rely on support rod, and operator can be by stone at this time Cream hollow lath is transported to storage ground, and convenient and efficient, one can complete the transport of gypsum hollow lath, reduce more people Production cost when carrying together.

The utility model is further arranged to: two one end of the support rod far from loading plate are connected by second crossbar It connects, the second crossbar is equipped with intermediate bar, and the L shape for blocking gypsum hollow lath is rotatably connected on the intermediate bar Hook, the L shape hook are equipped with fixture block far from one end of intermediate bar.

Through the above technical solutions, operator, which when lifting gypsum hollow lath, first rotates L shape hook, blocks gypsum hollow item Then back is pressed downward drive rod, loading plate and gypsum hollow lath lower end is driven to contradict, while fixture block is seized gypsum sky The edge of heart batten upper end, so that gypsum hollow lath is toppled over and relied on support rod, reduces under the pulling of L shape hook When loading plate lifts gypsum hollow lath, due to gypsum hollow lath gravity center instability it can not be successfully and rely on branch Situation on strut.

The utility model is further arranged to: one end that the connecting rod and central axis contradict is equipped with reinforcing bar, the reinforcing Bar is connect far from one end of central axis with support rod.

Through the above technical solutions, reinforcing bar starts the support fixed function to support rod, two support rods are reduced Lower end is mutually opened or close situation, improves the stability of transport gypsum hollow lath.

The utility model is further arranged to: the both ends of the second crossbar are equipped with T-shaped block, open up on the support rod There is sliding groove, the sliding groove is distributed along support rod length direction, and the support rod is equipped with driving T-shaped block and moves along sliding groove Actuator.

Through the above technical solutions, operator is by the mobile T-shaped block of actuator, so as to adjust the height of second crossbar, one Aspect facilitates the position that operator adjusts L shape hook, makes fixture block and gypsum hollow lath detent, on the other hand but also L shape hook It is suitable for the handling work of different size gypsum hollow lath, improves the versatility of transport vehicle.

The utility model is further arranged to: the actuator includes being rotatably connected on sliding groove along its length between both ends Screw rod, the screw rod is pierced by support rod far from one end of loading plate and offers interior hex slot, the T shape in the one end being pierced by Block is connect with screw flight.

Through the above technical solutions, die nut is inserted into interior hex slot by operator, rotation die nut drives screw rod Rotation, can be such that T-shaped block moves along sliding groove, thus drive second crossbar mobile, it is simple and convenient.

The utility model is further arranged to: the support rod is equipped with the fixing sleeve passed through for screw rod, the fixing sleeve Several limited posts are circumferentially threaded with, one end of the limited post is pierced into fixing sleeve and is rotatablely connected in the one end pierced into There is snap ring compatible with screw rod.

Through the above technical solutions, operator's rotary spacing column, snap ring is pushed to be pushed against on screw rod outer wall, by snap ring with Frictional force between screw rod limits the rotation of screw rod, reduces the case where influencing the shape hook position L due to screw rod unintentional rotation Occur.

The utility model is further arranged to: tension spring is equipped on two support rods, the tension spring is far from support rod One end be equipped with grab for blocking gypsum hollow lath.

Through the above technical solutions, operator pulls tension spring, so that grab is blocked the side of gypsum hollow lath, reduce behaviour For author when transporting gypsum hollow lath, there is a situation where transverse shiftings for gypsum hollow lath.

The utility model is further arranged to: non-slip mat is equipped on the inside of the grab.

It is contacted through the above technical solutions, non-slip mat reduces grab with the direct of gypsum hollow lath, reduces grab The case where scratching gypsum hollow lath surface.

The utility model is further arranged to: the loading plate is equipped with resilient rubbber cushion.

Through the above technical solutions, resilient rubbber cushion increases the frictional force in loading plate and gypsum hollow lath frame, subtract Opposite sliding occurs for small gypsum hollow lath and loading plate, improves the stability of transport, while elasticity rubber Rubber mat also reduces the case where gypsum hollow lath carried plate weighs wounded.

In conclusion the utility model has the following beneficial effects:

1. operator can individually complete the handling work of gypsum hollow lath by transport vehicle, convenient and efficient, labor has been simplified Power saves production cost, while transport vehicle is easy to operate, improves handling efficiency；

2. making transport vehicle be suitable for the handling work of different size gypsum hollow lath by actuator, improve flexibly Property；The tension spring and grab of setting then limit gypsum hollow lath in the transverse shifting of handling process, improve handling work Stability.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the present embodiment；

Fig. 2 is the structural schematic diagram that the present embodiment is used to embody intermediate bar and L shape hook；

Fig. 3 is enlarged drawing at A in Fig. 2；

Fig. 4 is enlarged drawing at B in Fig. 2；

Fig. 5 is the structural schematic diagram that the present embodiment is used to embody actuator；

Fig. 6 is the structural schematic diagram that the present embodiment is used to embody fixing sleeve；

Fig. 7 is the schematic diagram for embodying the prior art.

Appended drawing reference: 1, fixed link；11, first crossbar；12, support rod；13, loading plate；131, resilient rubbber cushion；14, Connecting rod；15, central axis；151, idler wheel；16, drive rod；17, second crossbar；18, intermediate bar；181, L shape hook；19, fixture block；2, Reinforcing bar；21, T-shaped block；22, sliding groove；3, actuator；31, screw rod；32, interior hex slot；33, fixing sleeve；34, limited post； 341, snap ring；35, tension spring；351, grab；36, non-slip mat；4, crossbeam；41, gypsum hollow lath.

Specific embodiment

The utility model is described in further detail below in conjunction with attached drawing.

Wherein identical components are presented with like reference characters.It should be noted that word used in the following description Language "front", "rear", "left", "right", "up" and "down" refer to the direction in attached drawing, word " bottom surface " and " top surface ", "inner" and "outside" refers respectively to the direction towards or away from geometric center of specific component.

Embodiment: a kind of gypsum hollow lath transport vehicle, as shown in Figure 1, including two fixed links 1 being parallel to each other, two A fixed link 1 is connected by first crossbar 11, and two fixed links 1 are equipped with vertical support rod far from one end of first crossbar 11 12, the lower end of support rod 12 is equipped with loading plate 13, and 13 length of loading plate is greater than the width of gypsum hollow lath, two fixed links 1 On be all provided with the connecting rod 14 that 12 direction of oriented close support rod extends obliquely downward, the one end of two connecting rods 14 far from fixed link 1 is logical Cross the connection of central axis 15, the both ends of central axis 15 extend outside connecting rod 14, and the both ends of central axis 15 be rotatably connected to The idler wheel 151 that ground contradicts, idler wheel 151 play the supporting role to fixed link 1 by connecting rod 14, and by 13 frame of loading plate from Ground, height of height of the loading plate 13 apart from ground with gypsum hollow lath apart from ground are adapted, and two fixed links 1 are close One end of first crossbar 11 is respectively connected with drive rod 16, and drive rod 16 tilts upward extension to far from 1 direction of fixed link.

As shown in Figure 1, operator when carrying gypsum hollow lath, first catches drive rod 16 that transport vehicle is pushed to be moved to two Between a crossbeam, it is that fulcrum is lifted drive rod 16 upwards with idler wheel 151, drives loading plate 13 to tilt down, then push driving Bar 16 is inserted into loading plate 13 in the spacing between gypsum hollow lath and ground, and makes loading plate 13 far from support rod 12 Gypsum hollow lath is crossed in one end, and after gypsum hollow lath and the conflict of support rod 12, operator is pressed downward drive rod 16, drives Loading plate 13 is contradicted to close to the lifting of gypsum hollow lath direction up to gypsum hollow lath lower end, and operator continues to be pressed downward Gypsum hollow lath is pushed over and is relied on support rod 12 by drive rod 16, loading plate 13, and operator pushes drive rod 16 again, Gypsum hollow lath is lifted away from crossbeam completely by loading plate 13, operator can transport gypsum hollow lath to storage at this time Ground.The transport of gypsum hollow lath can be implemented separately by transport vehicle by operator, reduce labour when more people carry, from And reduce production cost.

As shown in Figure 1, the one end of two support rods 12 far from loading plate 13 is connected by second crossbar 17, reinforcement two is played The effect of a 12 connective stability of support rod, second crossbar 17 are equipped with intermediate bar 18, are rotatably connected to and are used on intermediate bar 18 The L shape hook 181 of gypsum hollow lath is blocked, L shape hook 181 is equipped with fixture block 19(such as Fig. 3 far from one end of intermediate bar 18).

As shown in Figure 1, operator, which before pushing drive rod 16 to be lifted loading plate 13, first rotates L shape hook 181, hooks gypsum Hollow lath deviates from the side of support rod 12, when operator starts to push the drive promotion gypsum hollow item of loading plate 13 of drive rod 16 When plate, L shape hook 181 also pulls fixture block 19(such as Fig. 3 with the inclination of entire transport vehicle), so that fixture block 19 is blocked gypsum hollow lath The edge of upper end reduces loading plate 13 in lifting gypsum hollow so that gypsum hollow lath be pulled to be poured on support rod 12 When batten, situation about being poured on support rod 12 can not be successfully due to gypsum hollow lath gravity center instability, to removing for operator Fortune work is provided convenience.

As shown in Fig. 2, one end that connecting rod 14 and central axis 15 contradict is equipped with reinforcing bar 2, the extending direction of reinforcing bar 2 and company The inclined direction of bar 14 is consistent, and the one end of reinforcing bar 2 far from central axis 15 is connect with support rod 12, and connecting rod 14, which plays, further to be added The effect of clamped strut 12 reduces two 12 lower ends of support rod mutually opening or close situation under stress effect and occurs.

As shown in Figure 1 and Figure 4, tension spring 35 is equipped on two support rods 12, tension spring 35 in the raw, is drawn usually Spring 35 is equipped with the grab 351 for blocking gypsum hollow lath far from one end of support rod 12, and operator stretches tension spring 35, is used in combination Grab 351 hooks the both ends of gypsum hollow lath along its length, and be stretched at tension spring 35 state at this time, to gypsum hollow lath It is applied with a pulling force effect, gypsum hollow lath is reduced and occurs the phenomenon that laterally breakking away in the handling process；In grab 351 Side is additionally provided with non-slip mat 36, reduces the case where grab 351 scratches gypsum hollow lath under the pulling force effect of tension spring 35.

As shown in figure 5, the both ends of second crossbar 17 are equipped with T-shaped block 21, two opposite sides of support rod 12 are opened up There is sliding groove 22, sliding groove 22 is distributed along 12 length direction of support rod and section is T shape, and support rod 12 is equipped with driving T-shaped block 21 actuators 3 moved along sliding groove 22.Actuator 3 includes screw rod 31, and the both ends of screw rod 31 are respectively with sliding groove 22 along length The both ends in direction are rotatablely connected, and T-shaped block 21 is threadedly coupled with screw rod 31, and screw rod 31 is pierced by support rod far from one end of loading plate 13 12 and interior hex slot 32 is offered in the one end being pierced by.

As shown in figure 5, die nut is inserted into interior hex slot 32 by operator, then rotates die nut and drive two spiral shells Bar 31 rotates simultaneously, is engaged by screw rod 31 with the screw thread of T-shaped block 21, so that T-shaped block 21 is moved along sliding groove 22, to drive Second crossbar 17 is mobile, facilitates operator and is adjusted to the position of L shape hook 181, improves to different size gypsum hollow The versatility and flexibility of batten.

As shown in fig. 6, support rod 12 is equipped with the fixing sleeve 33 passed through for screw rod 31,33 sidewall thread of fixing sleeve is connected with Several limited posts 34, and several limited posts 34, along the circumferentially distributed of fixing sleeve 33, one end of limited post 34 is pierced into fixing sleeve 33 And it is rotatably connected to snap ring 341 compatible with screw rod 31 in the one end pierced into, after the adjustment of the position of second crossbar 17, Operator turns limited post 34, so that limited post 34 pushes snap ring 341 and screw rod 31 to push against to close to the movement of 31 direction of screw rod, To limit the rotation of screw rod 31, reduces the unintentional rotation due to screw rod 31 and cause T-shaped block 21 mobile, second crossbar 17 Change in location causes fixture block 19 to can not be successfully the case where blocking with gypsum hollow lath.

As shown in Fig. 2, in addition, loading plate 13 avoids gypsum hollow lath and loading plate equipped with resilient rubbber cushion 131 13 direct contact, reduces the case where gypsum hollow lath is weighed wounded.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but As long as all by the protection of Patent Law in the scope of the claims of the utility model.

Claims (9)

1. a kind of gypsum hollow lath transport vehicle, it is characterised in that: including two fixed links being parallel to each other (1), described in two Fixed link (1) is connected by first crossbar (11), and two fixed links (1) are equipped with perpendicular far from the one end of first crossbar (11) The lower end of straight support rod (12), the support rod (12) is equipped with loading plate (13), is all provided on two fixed links (1) oriented The connecting rod (14) extended obliquely downward close to support rod (12) direction, the one end of two connecting rods (14) far from fixed link (1) By central axis (15) connect, the both ends of the central axis (15) be rotatably connected to ground contradict idler wheel (151), two The fixed link (1) is respectively connected with to far from fixed link (1) direction close to the one end of first crossbar (11) and tilts upward extension Drive rod (16), loading plate (13) length are greater than the width of gypsum hollow lath.

2. gypsum hollow lath transport vehicle according to claim 1, it is characterised in that: two support rods (12) are separate One end of loading plate (13) by second crossbar (17) connect, the second crossbar (17) be equipped with intermediate bar (18), it is described in Between L shape hook (181) for blocking gypsum hollow lath is rotatably connected on bar (18), the L shape hook (181) is far from intermediate bar (18) one end is equipped with fixture block (19).

3. gypsum hollow lath transport vehicle according to claim 2, it is characterised in that: the connecting rod (14) and central axis (15) one end contradicted is equipped with reinforcing bar (2), and the reinforcing bar (2) one end and support rod (12) far from central axis (15) are even It connects.

4. gypsum hollow lath transport vehicle according to claim 3, it is characterised in that: the both ends of the second crossbar (17) It is equipped with T-shaped block (21), is offered sliding groove (22) on the support rod (12), the sliding groove (22) is long along support rod (12) Directional spreding is spent, the support rod (12) is equipped with driving T-shaped block (21) actuator (3) mobile along sliding groove (22).

5. gypsum hollow lath transport vehicle according to claim 4, it is characterised in that: the actuator (3) includes rotation It is connected to screw rod (31) of the sliding groove (22) along its length between both ends, the screw rod (31) is worn far from the one end of loading plate (13) It support rod (12) and is offered interior hex slot (32) in the one end being pierced by out, the T-shaped block (21) is threadedly coupled with screw rod (31).

6. gypsum hollow lath transport vehicle according to claim 5, it is characterised in that: the support rod (12), which is equipped with, to supply The fixing sleeve (33) that screw rod (31) passes through, the fixing sleeve (33) are circumferentially threaded with several limited posts (34), the limit One end of position column (34) is pierced into fixing sleeve (33) and is rotatably connected to and screw rod (31) compatible snap ring in the one end pierced into (341).

7. gypsum hollow lath transport vehicle according to claim 1, it is characterised in that: on two support rods (12) Equipped with tension spring (35), the tension spring (35) is equipped with the grab for blocking gypsum hollow lath far from the one end of support rod (12) (351).

8. gypsum hollow lath transport vehicle according to claim 7, it is characterised in that: be equipped on the inside of the grab (351) Non-slip mat (36).

9. gypsum hollow lath transport vehicle according to claim 1, it is characterised in that: the loading plate (13) is equipped with bullet Property rubber pad (131).