CN222202588U - Article carrying frame - Google Patents

Abstract

The utility model belongs to the technical field of mechanical devices, and provides a carrying frame which comprises a transverse telescopic rod for adjusting the width of the carrying frame, a longitudinal telescopic rod connected with the telescopic rod to form a frame structure, a baffle plate assembly arranged on the transverse telescopic rod at the end part of the length direction, and a support frame arranged on the baffle plate assembly. The length and the width of the carrier frame are adjustable, so that ALC plates with different sizes can be stably and portably loaded, the problem that the ALC plates are damaged in the transportation process due to overlarge size and inconvenient loading of the ALC plates under certain conditions can be avoided, and the safety problems that the ALC plates are unstable in fixation and fall off in the transportation process can be avoided.

Description

Article carrying frame

Technical Field

The utility model belongs to the technical field of mechanical devices, and particularly relates to a carrying frame.

Background

Often, a trolley is used on a construction site to carry items. Common ALC board travelling bogie on the building site, its rack area size is fixed, especially the width direction, and distance between two wheels promptly can not adjust, can lead to appearing the problem that can't place and transport inconvenience because of the thickness of ALC board is too big.

In the related art, there are cases where the planar load size of the transporting carriage is adjustable, and particularly, after the width size of the planar load size is adjusted, the transporting amount of the transporting carriage is increased, which sometimes causes a problem that the object falls.

Disclosure of utility model

In view of the above, the present utility model provides a loading frame to solve the problem that the ALC plate falls off due to the frame for transporting the ALC plate in the prior art.

The utility model provides a carrying frame which comprises a transverse telescopic rod for adjusting the width of the carrying frame, a longitudinal telescopic rod connected with the telescopic rod to form a frame structure, and a baffle plate assembly arranged on the transverse telescopic rod at the end part of the length direction, wherein the longitudinal telescopic rod is arranged for adjusting the length of the carrying frame.

The beneficial effects are, through carrying the length, the width is adjustable of thing frame, can realize more firm and portable loading not unidimensional ALC board, both can avoid because of the too big inconvenient problem that leads to damaging in the transportation of loading of ALC board size under certain circumstances, also can avoid the ALC board fixed unstable and safety problems such as drop in the transportation.

As an alternative embodiment, the transverse telescopic rod and the longitudinal telescopic rod are respectively round tubes.

The beneficial effects are that, by horizontal telescopic link and the vertical telescopic link that the pipe constitutes, more conveniently adjust width direction and length direction.

As an alternative implementation manner, the transverse telescopic rod and the longitudinal telescopic rod both comprise elastic protruding structures and adjusting holes, and the elastic protruding structures are matched and inserted with the adjusting holes.

The adjustable frame has the beneficial effects that the elastic bulge structure is retracted into the corresponding adjusting hole by pressing the elastic bulge structure, so that the length and the width of the object carrying frame can be adjusted by adjusting the length of the longitudinal telescopic rod and the transverse telescopic rod. After the elastic bulge structure is clamped into the corresponding adjusting hole again, the positioning of the transverse telescopic rod and the longitudinal telescopic rod can be realized.

The transverse telescopic rod comprises a first inner tube, a first outer tube, a first guide groove, a plurality of first adjusting holes, a second inner tube and a third outer tube, wherein the first inner tube is provided with a first elastic bulge, the first outer tube is provided with a first guide groove along the length direction of the first outer tube, the first elastic bulge is suitable for being matched and inserted with the first adjusting holes, and/or the longitudinal telescopic rod comprises a second inner tube, two ends of the second inner tube are respectively provided with a second elastic bulge, the inner wall of the second outer tube is provided with a second guide groove along the length direction of the second outer tube, the second guide groove is internally provided with a plurality of second adjusting holes, the second elastic bulge at one end of the second outer tube is suitable for being matched and inserted with the second adjusting holes, the inner wall of the third outer tube is provided with a third guide groove along the length direction of the third outer tube, the third guide groove is internally provided with a plurality of third adjusting holes, and the second elastic bulge at the other end of the second outer tube is suitable for being matched and inserted with the third adjusting holes.

The beneficial effects are that, first guide way has played the effect of direction to first elastic bulge slip for first elastic bulge can aim at corresponding first regulation hole more fast, has improved the efficiency of horizontal telescopic link when adjusting length. The second outer tube, third outer tube set up the both ends at the second inner tube respectively, can make overall structure more firm, can increase the structural strength of vertical telescopic link.

As an alternative embodiment, the end face of the elastic bulge structure is provided with a blind hole.

The beneficial effects are that, can stretch into the blind hole through the instrument and press the protruding structure of elasticity for the protruding structure of elasticity breaks away from the regulation hole that corresponds fast, can improve the efficiency of the length adjustment of carrying the thing frame, width adjustment.

As an alternative embodiment, the baffle assembly includes a baffle plate rotatably connected to the transverse telescopic rod.

The beneficial effects are that, keep off the thing board rotation and connect on being located the horizontal telescopic link of carrying the tip of thing frame. When the ALC plate needs to be carried on the object carrying frame, the object blocking plate can be rotated to an inclined state, so that the object blocking plate cannot influence the carrying of the ALC plate. After the ALC plate is arranged on the object carrying frame, the object blocking plate can be rotated to be in a vertical state, so that the ALC plate can be limited by the object blocking plate, and the ALC plate is placed to fall from the end part.

As an alternative implementation mode, the baffle comprises a lantern ring and a plate body, wherein the lantern ring is rotatably connected to the transverse telescopic rod, and the plate body is connected to the lantern ring, so that the plate body can be rotated to be located above or below the transverse telescopic rod.

As an alternative embodiment, at least one end surface of the collar is provided with a deflector rod.

The novel toggle has the beneficial effects that the toggle rod is arranged on one end face of the toggle ring, and the toggle rod can be rotated to drive the toggle ring to rotate, so that the novel toggle is more convenient.

As an optional implementation mode, the baffle assembly further comprises a support plate rotatably connected to the bottom of the transverse telescopic rod, the support plate can be screwed below the transverse telescopic rod or screwed out of the position below the transverse telescopic rod and extends out of the transverse telescopic rod in the length direction, one end of the support rod is connected with the plate body, and the other end of the support rod is detachably connected with the support plate.

The beneficial effects are, when the backup pad rotatory and follow the bottom of carrying the thing frame and unscrew, the one end that the plate body was kept away from to the bracing piece is connected to in the backup pad for the bracing piece can form the support to the plate body, makes baffle assembly can exert better and blocks the effect that the ALC board dropped. When the ALC plate is required to be carried on the carrying frame, in order to avoid inconvenience caused by the baffle assembly in carrying, one end of the support rod, which is far away from the plate body, can be separated from the support plate, and then the support plate is rotated, so that the support plate is rotated to enter the lower part of the bottom of the carrying frame, the lantern ring is rotated, and the plate body is inclined outwards, so that the plate body can be prevented from being blocked in carrying.

As an optional implementation mode, the supporting rod is a spring, one end of the supporting rod, which is far away from the plate body, is provided with a hook, and the supporting plate is provided with a hanging hole matched with the hook.

The beneficial effects are that, the backup pad adopts the spring, can make the plate body when sheltering from the ALC board, has certain elasticity, can guarantee that baffle subassembly can be in length direction on the centre gripping ALC board, makes the ALC board can not drop moreover, and can not form the extrusion to the ALC board.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic side view of a cargo frame of a baffle assembly according to an embodiment of the present utility model in a shielding state;

FIG. 2 is a schematic top view of a frame of the present utility model;

fig. 3 is a schematic perspective view of a transverse telescopic rod of a carrying frame according to an embodiment of the present utility model;

Fig. 4 is a schematic structural view of a use state of a baffle of a loading frame according to an embodiment of the present utility model;

Fig. 5 is a schematic side view of a cargo frame of a baffle assembly according to an embodiment of the present utility model in a non-shielding state.

Reference numerals illustrate:

100. a carrying frame;

110. A transverse telescopic rod;

111. a first inner tube;

112. A first outer tube;

120. A longitudinal telescopic rod;

121. A second inner tube;

122. A second outer tube;

123. A third outer tube;

130. An elastic protrusion structure;

140. an adjustment aperture;

150. A baffle assembly;

151. a baffle plate;

1511. a collar;

1512. a plate body;

152. A deflector rod.

153. A support plate;

154. a support rod;

160. A walking wheel;

170. pushing hands;

X, length direction;

y, width direction.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Embodiments of the present utility model are described below with reference to fig. 1 to 5.

As shown in fig. 1 and 2, according to an embodiment of the present utility model, there is provided a cargo frame 100, wherein the cargo frame 100 has a length direction X and a width direction Y, the cargo frame 100 includes a transverse telescopic rod 110, a longitudinal telescopic rod 120 and a baffle assembly 150, the transverse telescopic rod 110 is used for adjusting the width of the cargo frame 100, the longitudinal telescopic rod 120 and the telescopic rod are connected into a frame structure, the longitudinal telescopic rod 120 is arranged for adjusting the length of the cargo frame 100, and the baffle assembly 150 is arranged on the transverse telescopic rod 110 at an end of the length direction X.

As can be appreciated, the plurality of transverse telescopic rods 110 of the carrying frame 100 are arranged at intervals in the length direction X and are uniformly distributed, so as to ensure the stress uniformity of the carrying frame 100. The baffle assembly 150 is disposed at an end of the loading frame 100 in the length direction X, or on the transverse telescopic rods 110 at both ends of the length direction X, the baffle assembly 150 is disposed. The baffle assembly 150 may limit the ALC plate from falling off of the carriage frame 100.

The carrier 100 further includes a road wheel 160 and a pushing handle 170, which can push the pushing handle 170 so that the carrier 100 runs through the road wheel 160.

In another embodiment, the transverse telescopic rod 110 and the longitudinal telescopic rod 120 are respectively round tubes, and the transverse telescopic rod 110 and the longitudinal telescopic rod 120 formed by the round tubes are more convenient to adjust in the width direction Y and the length direction X.

Specifically, as shown in fig. 3, each of the transverse telescopic rod 110 and the longitudinal telescopic rod 120 includes an elastic protrusion structure 130 and an adjusting hole 140, and the elastic protrusion structure 130 is inserted into the adjusting hole 140 in a matching manner.

It can be understood that when the width of the transverse telescopic rod 110 is adjusted, the elastic protruding structure 130 can be pressed to enable the elastic protruding structure 130 to retract into the adjusting hole 140, so that the purpose of adjusting the width of the carrier frame 100 can be achieved by adjusting the length of the transverse telescopic rod 110. Similarly, when the length of the longitudinal telescopic rod 120 is adjusted, the elastic protruding structure 130 can be pressed to enable the elastic protruding structure 130 to retract into the corresponding adjusting hole 140, so that the length of the carrier frame 100 can be adjusted by adjusting the length of the longitudinal telescopic rod 120. After the elastic protruding structures 130 are re-clamped into the corresponding adjusting holes 140, the positioning of the transverse telescopic rod 110 and the longitudinal telescopic rod 120 can be achieved.

In another embodiment, as further shown in fig. 3, the transverse telescopic rod 110 includes a first inner tube 111 and a first outer tube 112, the first inner tube 111 is provided with a first elastic protrusion, the inner wall of the first outer tube 112 is provided with a first guiding groove along the length direction X of the first outer tube 112, a plurality of first adjusting holes are arranged in the first guiding groove, the first elastic protrusion is suitable for being matched and inserted with the first adjusting holes, and/or the longitudinal telescopic rod 120 includes a second inner tube 121, a second outer tube 122 and a third outer tube 123, two ends of the second inner tube 121 are respectively provided with a second elastic protrusion, the inner wall of the second outer tube 122 is provided with a second guiding groove along the length direction X of the second outer tube 122, a plurality of second adjusting holes are arranged in the second guiding groove, the second elastic protrusion at one end is suitable for being matched and inserted with the second adjusting holes, the inner wall of the third outer tube 123 is provided with a third guiding groove along the length direction X of the third outer tube 123, and the second elastic protrusion at the other end is suitable for being matched and inserted with the third adjusting holes.

It is understood that the first adjustment holes may be sequentially provided in plurality along the length direction X of the first outer tube 112. The first guide groove is formed in the inner wall of the first outer tube 112, and extends in the length direction X of the first outer tube 112, so that when the length of the transverse telescopic rod 110 is adjusted, the first elastic protrusion can slide along the length direction X of the first guide groove, circumferential rotation of the first inner tube 111 in the process of adjusting the length of the transverse telescopic rod 110 is avoided, and therefore the first elastic protrusion cannot be accurately aligned with the first adjusting hole. The first guide groove plays a role in guiding the sliding of the first elastic bulge, so that the first elastic bulge can be aligned with the corresponding first adjusting hole more quickly, and the efficiency of the transverse telescopic rod 110 in adjusting the length is improved.

Likewise, the length of the longitudinal telescopic rod 120 may be adjusted in the same manner as the length of the transverse telescopic rod 110, and of course, the length of the longitudinal telescopic rod 120 may be adjusted in a different manner. Since the length of the longitudinal extension bar 120 is long, if only one outer tube and one inner tube are provided, the length of the inner tube is also long since the length of the longitudinal extension bar 120 is long, and the diameter of the inner tube is smaller than that of the outer tube, the strength of the longitudinal extension bar 120 may be insufficient. Therefore, the second outer tube 122 and the third outer tube 123 are respectively disposed at both ends of the second inner tube 121, so that the overall structure is stronger, and the structural strength of the longitudinal telescopic rod 120 can be increased.

In another embodiment, the end surface of the elastic protruding structure 130 is provided with a blind hole, so that the elastic protruding structure 130 can be quickly separated from the corresponding adjusting hole 140 by pressing by a tool, so that the length adjusting and width adjusting efficiency of the carrier frame 100 can be improved.

In another embodiment, the baffle assembly 150 includes a baffle 151, the baffle 151 being pivotally connected to the transverse telescopic rod 110.

Wherein the baffle 151 is rotatably connected to the transverse telescopic rod 110 at the end of the load frame 100. When the ALC plate needs to be carried on the carrying frame 100, the baffle 151 can be rotated to an inclined state, so that the baffle 151 does not affect the carrying of the ALC plate. When the ALC plate is mounted on the carriage frame 100, the baffle 151 can be rotated to a vertical state, so that the baffle 151 can restrict the ALC plate and place the ALC plate to drop from the end.

Specifically, as shown in fig. 4, the baffle 151 includes a collar 1511 and a plate 1512, the collar 1511 is rotatably connected to the transverse telescopic rod 110, and the plate 1512 is connected to the collar 1511 such that the plate 1512 can be rotated to be located above or below the transverse telescopic rod 110.

As can be appreciated, the collar 1511 is annular, the collar 1511 is sleeved on the transverse telescopic rod 110 at the end of the carrying frame 100, the two collars 1511 are spaced apart, and the plate 1512 is connected between the two collars 1511. When collar 1511 is rotated, plate 1512 is also rotated. Of course, the plate 1512 may be rotated during rotation.

The plate 1512 may also be a telescoping plate, i.e., two plate-like structures may be laterally telescoping.

In another embodiment, at least one end surface of collar 1511 is provided with toggle 152. The driving lever 152 is disposed on an end surface of the collar 1511, and the collar 1511 can be driven to rotate by rotating the driving lever 152, which is more convenient.

In another embodiment, as shown in fig. 1 and 5, the baffle assembly 150 further includes a support plate 153 and a support rod 154, wherein the support plate 153 is rotatably connected to the bottom of the transverse telescopic rod 110, such that the support plate 153 can be screwed under the transverse telescopic rod 110, or the support plate 153 is screwed out under the transverse telescopic rod 110 and extends out of the transverse telescopic rod 110 in the length direction X, one end of the support rod 154 is connected to the plate body 1512, and the other end of the support rod 154 is detachably connected to the support plate 153.

It is understood that the bottom of the carrying frame 100 is provided with a pin, and the support plate 153 is horizontally rotatably connected to the pin.

One end of the support rod 154 may be movably connected, fixedly connected, or rotatably connected with the plate body 1512. When the support plate 153 rotates and is unscrewed from the bottom of the carrier frame 100, one end of the support rod 154 remote from the plate body 1512 is connected to the support plate 153, so that the support rod 154 can form a support for the plate body 1512, and the baffle plate assembly 150 can better play a role in blocking the falling of the ALC plate. When the ALC plate needs to be carried on the carrier frame 100, in order to avoid inconvenience of the baffle assembly 150 in carrying, the end of the support rod 154 far away from the plate 1512 is separated from the support plate 153, and then the support plate 153 is rotated, so that the support plate 153 is rotated to enter the lower part of the bottom of the carrier frame 100, and the collar 1511 is rotated to tilt the plate 1512 outwards, thereby avoiding the plate 1512 from obstructing carrying.

In another embodiment, the support rod 154 is a spring, a hook is disposed at one end of the support rod 154 away from the plate body 1512, and a hanging hole matched with the hook is disposed on the support plate 153.

It will be appreciated that the springs are steel springs such that the support rods 154 are both somewhat resilient and have sufficient force to support the plate body 1512. The support plate 153 adopts the spring, can make the plate body 1512 have certain elasticity when sheltering from the ALC board, can guarantee that baffle assembly 150 can the centre gripping ALC board on length direction X, makes the ALC board can not drop moreover, and can not extrude the ALC board.

Therefore, the baffle assembly 150 forms a clamp plate that clamps the ALC plate during transportation, avoiding falling off and hitting the feet, and reducing the transportation burden of workers.

The application provides a more portable and stable transportation tool for the transportation of the ALC plate, and the length and the width of the object carrying frame 100 can be adjusted, so that the ALC plates with different sizes can be more stably and portably loaded, the problem that the ALC plate is damaged in the transportation process due to the fact that the ALC plate is excessively large in size and inconvenient to load in certain situations can be avoided, and the safety problems that the ALC plate is unstable in fixation in the transportation process, falls off, breaks feet and the like can be avoided.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (10)

1. A load frame having a length direction (X) and a width direction (Y), characterized in that the load frame (100) comprises:

a transverse telescopic rod (110) for adjusting the width of the carrying frame (100);

The longitudinal telescopic rod (120) is connected with the telescopic rod to form a frame structure, and the longitudinal telescopic rod (120) is arranged for adjusting the length of the carrying frame (100);

and a baffle assembly (150) provided on the lateral expansion link (110) at the end of the longitudinal direction (X).

2. The load frame according to claim 1, wherein the transverse telescopic rod (110) and the longitudinal telescopic rod (120) are respectively round tubes.

3. The load frame according to claim 2, wherein the transverse telescopic rod (110) and the longitudinal telescopic rod (120) each comprise an elastic protruding structure (130) and an adjusting hole (140), and the elastic protruding structure (130) is in fit connection with the adjusting hole (140).

4. A load frame according to claim 3, wherein the transverse telescopic bar (110) comprises:

A first inner tube (111) provided with a first elastic protrusion;

the inner wall of the first outer tube (112) is provided with a first guide groove along the length direction (X) of the first outer tube (112), a plurality of first adjusting holes are arranged in the first guide groove, the first elastic protrusions are suitable for being matched and inserted with the first adjusting holes, and/or the longitudinal telescopic rod (120) comprises:

a second inner tube (121) with second elastic protrusions at both ends;

The inner wall of the second outer tube (122) is provided with a second guide groove along the length direction (X) of the second outer tube (122), a plurality of second adjusting holes are arranged in the second guide groove, and the second elastic bulge at one end is suitable for being matched and inserted with the second adjusting holes;

the inner wall of the third outer tube (123) is provided with a third guide groove along the length direction (X) of the third outer tube (123), a plurality of third adjusting holes are formed in the third guide groove, and the second elastic protrusions at the other end are suitable for being matched and inserted with the third adjusting holes.

5. A load frame according to claim 3, wherein the end face of the resilient projection structure (130) is provided with a blind hole.

6. The load frame according to any one of claims 1 to 5, wherein said baffle assembly (150) comprises a baffle plate (151), said baffle plate (151) being rotatably connected to said transverse telescopic rod (110).

7. The load frame according to claim 6, wherein said baffle (151) comprises:

a collar (1511) rotatably connected to the transverse telescopic rod (110);

A plate (1512) is coupled to the collar (1511) such that the plate (1512) is rotatable to be above or below the lateral telescoping rod (110).

8. The carrying frame as claimed in claim 7, characterized in that at least one end face of the collar (1511) is provided with a lever (152).

9. The load frame of claim 7, wherein said baffle assembly (150) further comprises:

The support plate (153) is rotatably connected to the bottom of the transverse telescopic rod (110), so that the support plate (153) can be screwed below the transverse telescopic rod (110), or the support plate (153) is screwed out below the transverse telescopic rod (110) and extends out of the transverse telescopic rod (110) in the length direction (X);

one end of the supporting rod (154) is connected with the plate body (1512), and the other end of the supporting rod (154) is detachably connected with the supporting plate (153).

10. The carrying frame as claimed in claim 9, wherein the support rod (154) is a spring, a hook is provided at an end of the support rod (154) away from the plate body (1512), and a hanging hole matched with the hook is provided on the support plate (153).