CN213201393U - Conveying equipment - Google Patents

Abstract

The utility model provides a conveying equipment belongs to material and takes conveying equipment technical field. It has solved the problem that current feeding equipment conveying efficiency is low. The utility model relates to a conveying equipment includes base, slide, conveying mechanism, riser, baffle, switching component and propelling movement cylinder body. The utility model discloses in, when one of them conveying mechanism's material area used up, people can continue to use another conveying mechanism for this conveying equipment can continue to provide the material area for shutdown mechanism, secondly, at the in-process that uses one of them conveying mechanism, people can supply new material area to the conveying mechanism who has used up the material area, and the material area card that will supply is in the conveying mechanism that corresponds, so, alright save people and change the material area time, and simultaneously, also make this replacement conveyor continuous operation, improve this replacement conveyor's work efficiency.

Description

Conveying equipment

Technical Field

The utility model belongs to the technical field of material area conveying equipment, a conveying equipment is related to.

Background

In the automatic production process, a feeding mechanism is often used, and the material belt is conveyed to a designated station through the feeding mechanism so as to enable the material belt to carry out the next procedure, for example, a bone cutting machine with the publication number of CN209594628U comprises a feeding belt conveying mechanism for conveying materials to be cut; the elastic downward pressing mechanism is arranged above the feeding belt conveying mechanism and is used for applying downward elastic downward pressure to the material at the discharge end of the feeding belt conveying mechanism; the blanking belt conveying mechanism is used for conveying the cut materials; the cutter assembly and the cutter bottom die are arranged between the feeding belt conveying mechanism and the discharging belt conveying mechanism, a material to be cut is conveyed to the cutter bottom die through the feeding belt conveying mechanism, and the cutter assembly is arranged above the cutter bottom die in a lifting mode and used for cutting the material on the cutter bottom die; the cutter lifting driving mechanism is used for driving the cutter assembly to lift, although the conveying mechanism in the bone cutting machine can convey the material belt, the parts or other materials, when the conveying mechanism is damaged or the parts, the material belt or the materials need to be replaced, people can only stop the conveying mechanism and replace the new materials, the parts or the materials belt, and therefore the conveying efficiency of the bone cutting machine on the materials, the material belt or the parts is reduced.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to current technique, provided a conveying equipment that transport efficiency is high.

The purpose of the utility model can be realized by the following technical proposal: a delivery apparatus, comprising: the base, slidable mounting has the slide on the base, be equipped with two at least conveying mechanism on the slide, every conveying mechanism all includes a pair of riser of installing on the slide, two connect, two through the baffle between the riser movable mounting has the switching component between the riser, be equipped with the propelling movement cylinder body that is used for driving the switching component motion on the riser.

In foretell conveying equipment, the switching subassembly includes at least one switching piece and corresponds the commentaries on classics piece of switching piece, the switching piece passes through the second connecting rod with the commentaries on classics piece and is connected, the second connecting rod passes each riser, the switching piece is located the both sides of riser with the commentaries on classics piece respectively.

In the above conveying equipment, first connecting rods are further arranged on the switching block and the rotating block in a penetrating mode, each first connecting rod movably penetrates through each vertical plate, and each vertical plate is provided with a movable hole used for penetrating through the first connecting rod.

In the conveying equipment, a pushing rod for pushing the rotating block to rotate by taking the second connecting rod as a center is arranged on the pushing cylinder body, one end of the pushing rod is hinged with the rotating block, a wheel shaft penetrates through the switching block, and a driven wheel is movably mounted on the wheel shaft; and a clamping block is arranged at the bottom of each switching block.

In the above conveying equipment, the same penetrating rod penetrates through each vertical plate, a driving wheel corresponding to a driven wheel is installed on the penetrating rod, and a motor for driving the penetrating rod to rotate penetrates through a pair of vertical plates of one conveying mechanism.

In the above conveying apparatus, a guide assembly for guiding the material belt to move directionally is provided on each of the two conveying mechanisms.

In foretell conveying equipment, two the guide assembly is all including installing the installation piece on corresponding the riser, be equipped with the locating piece on the installation piece, two the locating piece is connected through upper guide board and lower guide board.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses in, when one of them conveying mechanism's material area used up, people can continue to use another conveying mechanism for this conveying equipment can continuously provide the material area for equipment on the next station.

2. In the process of using one of the conveying mechanisms, people can supplement a new material belt for the conveying mechanism which has used up the material belt, and the supplemented material belt is clamped in the corresponding conveying mechanism, so that the material belt replacing time of people can be saved, meanwhile, the replacement conveying device can continuously work, and the work efficiency of the replacement conveying device is improved.

3. When the installation, will be with the plane at the place of the clearance between upper guide board and the lower guide board and the plane coincidence of the clearance place between action wheel and the follow driving wheel to make and pass the material area between action wheel and the follow driving wheel and can pass smoothly between upper guide board and the lower guide board, thereby carry away smoothly.

Drawings

FIG. 1 is a schematic structural diagram of a preferred embodiment of the present invention.

Fig. 2 is a schematic structural view of two conveying mechanisms.

Fig. 3 is a schematic structural diagram of a switching assembly.

Fig. 4 is a partial structural schematic diagram of the switching assembly in fig. 3.

Fig. 5 is a schematic view of the switching assembly installed in the riser.

Fig. 6 is a schematic view of a riser.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1-6, the utility model relates to a conveying equipment includes base, slide, conveying mechanism, riser, baffle, switching components and propelling movement cylinder body.

There is slide mounting on base 100 has slide 110, be equipped with two at least conveying mechanism 200 on slide 110, every conveying mechanism 200 all includes a pair of riser 210 of installing on slide 110, two connect through baffle 220 between the riser 210, two movable mounting has switching component 230 between the riser 210, be equipped with the propelling movement cylinder body 240 that is used for driving switching component 230 motion on the riser 210.

Further, a sliding cylinder 140 for pushing the sliding plate 110 to move is arranged on the sliding plate 110, a fixing plate 130 is arranged on the base 100, a sliding rod 141 for connecting the fixing plate 130 is movably arranged on the sliding cylinder 140, at least one sliding rail 150 is arranged on the base 100, a sliding block 111 for movably connecting the sliding rail 150 is arranged on the bottom surface of the sliding plate 110, and in the process of pushing the sliding rod 141 to move, the fixing plate 130 is fixedly connected with the base 100, one end of the sliding rod 141 is fixedly connected with the fixing plate 130, and the sliding cylinder 140 is mounted on the sliding plate 110, so that the sliding plate 110 and the sliding block 111 simultaneously move along the track of the sliding rail 150, and as the two conveying mechanisms 200 are both mounted on the sliding plate 110, the two conveying mechanisms 200 also synchronously move along with the sliding plate 110, that is, that the two conveying mechanisms.

In the working process, when the pushing cylinder 240 drives the switching component 230 to turn over to a predetermined angle, the switching component 230 clamps the material strap, so that the material strap cannot be separated from the conveying mechanism 200, and when the pushing cylinder 240 drives the switching component 230 to turn over to the predetermined angle in the reverse direction, the switching component 230 no longer clamps the material strap, so that the material strap is conveyed out through the corresponding conveying mechanism 200.

As shown in fig. 2 to 6, further, the switching assembly 230 includes at least one switching block 231 and a rotating block 232 corresponding to the switching block 231, the switching block 231 and the rotating block 232 are connected by a second connecting rod 233, the second connecting rod 233 passes through each vertical plate 210, the switching block 231 and the rotating block 232 are respectively located at two sides of the vertical plate 210, first connecting rods 234 pass through the switching block 231 and the rotating block 232, each first connecting rod 234 movably passes through each vertical plate 210, a movable hole 211 for passing through the first connecting rod 234 is formed in each vertical plate 210, a pushing rod 250 for pushing the rotating block 232 to rotate around the second connecting rod 233 is arranged on the pushing cylinder 240, one end of the pushing rod 250 is hinged to the rotating block 232, a wheel shaft 2311 passes through the switching block 231, and a driven wheel 2311a is movably mounted on the wheel shaft 2311; a fixture block 2312 is arranged at the bottom of each switching block 231, the same penetrating rod 212 penetrates through each vertical plate 210, a driving wheel 212a corresponding to the driven wheel 2311a is mounted on the penetrating rod 212, a motor 260 for driving the penetrating rod 212 to rotate penetrates through a pair of vertical plates 210 of one conveying mechanism 200, further, a rotating shaft 261 is arranged on the motor 260, the rotating shaft 261 and the penetrating rod 212 are driven through a belt (not marked in the figure), and specifically, wheels (not marked in the figure) for mounting the belt (not marked in the figure) are mounted on the rotating shaft 261 and the penetrating rod 212, so that when the motor 260 operates, the penetrating rod 212 and the driving wheel 212a mounted on the penetrating rod 212 are driven to move along with the rotating shaft 261 and the penetrating rod 212.

When the conveying mechanism 200 is required to convey the material tape, a person only needs to operate the pushing cylinder 240, so that the pushing cylinder 240 retracts the pushing rod 250, the rotating block 232 is hinged to the pushing rod 250, the pushing rod 250 drives the rotating block 232 to rotate, the rotating block 232 and the switching block 231 are both connected with the first connecting rod 234 through the second connecting rod 233, the second connecting rod 233 is hinged to the vertical plate 210, the first connecting rod 234 penetrates through the movable hole 211, the rotating block 232 and the switching block 231 are both fixedly connected to the second connecting rod 233, the rotating block 232 and the switching block 231 are both turned over around the second connecting rod 233, the driven wheel 2311a is mounted at one end of the switching block 231 through the wheel shaft 2311, so that the driven wheel 2311a moves towards the driving wheel 212a, and when a gap between the driving wheel 212a and the driven wheel 2311a meets the thickness of the material tape, that is, namely, when one end of the movable hole 211 of the first connecting rod 234 abuts against the driven wheel 231, after that, the driving wheel 212a rotates, and the tape in the conveying mechanism 200 is conveyed in a predetermined direction due to the one end of the tape passing through between the driving wheel 212a and the driven wheel 2311a, when the conveying mechanism 200 needs to clamp the tape, a person only needs to operate the pushing cylinder 240 again, so that the pushing cylinder 240 pushes the pushing rod 250 out, the pushing rod 250 is hinged with the rotating block 232, so that the rotating block 232 and the switching block 231 rotate in the opposite direction around the second connecting rod 233, and when the second connecting rod 233 abuts against the other end of the movable hole 211, the clamping block 2312 clamps the tape on the partition 220 of the conveying mechanism 200, and meanwhile, the driven wheel 2311a moves in the opposite direction to the driving wheel 212a, and then the pushing cylinder 240 stops working, so that the tape can be always clamped on the corresponding partition 220 when the conveying mechanism 200 is not working; further, when people need to replace the material strip, only the pushing cylinder 240 needs to be operated again, the switching block 231 rotates around the second connecting rod 233, and when the gap between the fixture block 2312 and the partition plate 220 is larger than the thickness of the material strip, then people can enable the material strip to pass through the gap between the fixture block 2312 and the partition plate 220 and pass through the gap between the driving wheel 212a and the driven wheel 2311a, and then the pushing cylinder is controlled again to reduce the gap between the driving wheel 212a and the driven wheel 2311a until the gap between the driving wheel 212a and the driven wheel 2311a is smaller than or equal to the thickness of the material strip, so that when the driving wheel 212a rotates, the material strip moves towards the designated direction, and the driven wheel 2311a rolls along with the material strip due to friction between the driven wheel 2311a and the material strip, and thus the conveying of the conveying mechanism 200 to the.

The conveying mechanism 200 is provided with a guide assembly 270 for guiding the strip to move directionally, the guide assembly 270 includes mounting blocks 271 mounted on corresponding risers 210, positioning blocks 271a are provided on the mounting blocks 271, a pair of positioning blocks 271a are connected through an upper guide plate 272 and a lower guide plate 273, specifically, one end of the upper guide plate 272 is connected with the upper end surface of one of the positioning blocks 271a, the other end of the upper guide plate 272 is connected with the upper end surface of the other positioning block 271a, one end of the lower guide plate 273 is connected with the lower end surface of one of the positioning blocks 271a, the other end of the lower guide plate 273 is connected with the lower end surface of the other positioning block 271a, and in the process of mounting the positioning blocks 271a, the plane of the gap between the upper guide plate 272 and the lower guide plate 273 is coincided with the plane of the gap between the driving wheel 212a and the driven wheel 2311a, so that the guide plate passing through the driving wheel 212a and the driven wheel 2311a can smoothly pass Thereby realizing the directional conveying of the material belt by the guide assembly.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (7)

1. A conveyor apparatus, comprising: the base, slidable mounting has the slide on the base, be equipped with two at least conveying mechanism on the slide, every conveying mechanism all includes a pair of riser of installing on the slide, two connect, two through the baffle between the riser movable mounting has the switching component between the riser, be equipped with the propelling movement cylinder body that is used for driving the switching component motion on the riser.

2. The conveying apparatus as claimed in claim 1, wherein the switching assembly includes at least one switching block and a rotating block corresponding to the switching block, the switching block and the rotating block are connected by a second connecting rod, the second connecting rod passes through each vertical plate, and the switching block and the rotating block are respectively located at two sides of the vertical plate.

3. The conveying equipment as claimed in claim 2, wherein first connecting rods are further arranged on the switching block and the rotating block in a penetrating manner, each first connecting rod movably penetrates through each vertical plate, and each vertical plate is provided with a movable hole for penetrating the first connecting rod.

4. The conveying equipment as claimed in claim 3, wherein a pushing rod for pushing the rotating block to rotate around the second connecting rod is arranged on the pushing cylinder body, one end of the pushing rod is hinged with the rotating block, a wheel shaft penetrates through the switching block, and a driven wheel is movably mounted on the wheel shaft; and a clamping block is arranged at the bottom of each switching block.

5. The conveying equipment as claimed in claim 4, wherein the same penetrating rod penetrates through each vertical plate, a driving wheel corresponding to the driven wheel is mounted on the penetrating rod, and a motor for driving the penetrating rod to rotate penetrates through a pair of vertical plates of one conveying mechanism.

6. The conveyor apparatus according to claim 1, wherein a guide assembly for guiding the directional movement of the strip of material is provided on each of the two conveyor mechanisms.

7. The conveying apparatus as claimed in claim 6, wherein each of the two guide assemblies includes a mounting block mounted on a corresponding vertical plate, the mounting block is provided with a positioning block, and the two positioning blocks are connected by an upper guide plate and a lower guide plate.

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