CN219057056U - Material rack capable of automatically positioning and quickly replacing material tray - Google Patents

Abstract

A material rack capable of automatically positioning and rapidly replacing a material tray comprises a material tray rack and a material tray, wherein a first slot, a second slot and a material tray discharge slot are arranged on the material tray rack; the first slots are arranged at the top of the tray frame, penetrate through all the tray grooves and form first clamping grooves on the left side and the right side of each tray groove; the second slots are arranged at the front part of the tray frame, penetrate through all the tray slots and form second clamping slots on the left side and the right side of each tray slot; two charging trays in two adjacent charging tray grooves, wherein the both sides pivot of one charging tray is blocked into first draw-in groove simultaneously, and the both sides pivot of another charging tray is blocked into the second draw-in groove simultaneously. According to the utility model, two trays in two adjacent tray grooves are positioned, one tray is positioned in the first clamping groove to protrude upwards, the other tray is positioned in the second clamping groove to protrude forwards, and the two adjacent trays are fixed in a staggered manner, so that a worker can conveniently take and put the trays, and the material changing is convenient. And all trays can be orderly arranged in two rows in a staggered way and arranged on the tray frame, so that the structure is compact and the volume is small.

Description

Material rack capable of automatically positioning and quickly replacing material tray

Technical Field

The utility model relates to the field of image arranging machines, in particular to a material rack capable of automatically positioning and rapidly replacing a material tray.

Background

The pattern arranging machine is equipment for arranging the sequins into patterns, various different colors of material belts for producing the sequins are needed to form the patterns, the material frames for placing the material belts are easy to be large in size due to the fact that the material frames are of a traditional material frame structure, and the material changing frequency generated by the fact that the frequency of the use of the different material belts is inconsistent is inconvenient to change the materials.

Disclosure of Invention

The utility model aims to overcome the defects and provide the material rack with the self-positioning and quick-changing material tray, which is compact in structure and convenient in material changing.

In order to achieve the above object, the technical solution of the present utility model is: a material rack capable of automatically positioning and rapidly replacing a material tray comprises a material tray rack and a material tray, wherein a first slot, a second slot and a material tray discharge slot are arranged on the material tray rack; the first slots are arranged at the top of the tray frame, penetrate through all the tray grooves and form first clamping grooves on the left side and the right side of each tray groove; the second slots are arranged at the front part of the tray frame, penetrate through all the tray slots and form second clamping slots on the left side and the right side of each tray slot; the bottom of the first clamping groove is higher than that of the second clamping groove, and the bottom of the second clamping groove is arranged at the front side of the bottom of the first clamping groove;

the two sides of the material tray are respectively provided with a rotating shaft extending outwards, one part of the material tray can be inserted into the material tray groove, the other part of the material tray extends out of the material tray frame, and when the material tray is inserted into the material tray groove, the rotating shafts at the two sides of the material tray can be simultaneously and rotatably clamped into the two first clamping grooves or the two second clamping grooves; two charging trays in two adjacent charging tray grooves, wherein the both sides pivot of one charging tray is blocked into first draw-in groove simultaneously, and the both sides pivot of another charging tray is blocked into the second draw-in groove simultaneously.

Every charging tray groove all rotatable installation a slice charging tray, two charging trays in two adjacent charging tray grooves, one slice location is protruding upwards at first draw-in groove, and another slice location is protruding forward at the second draw-in groove, and two adjacent charging trays are fixed by mistake, make things convenient for the workman to get the charging tray, and the reload is convenient. And all trays can be orderly arranged in two rows in a staggered way and arranged on the tray frame, so that the structure is compact and the volume is small.

Preferably, the tray rack comprises a base, a first lock rod and a plurality of plugboards, wherein a row of third slots are arranged on the base, the plugboards are arranged in a row, the lower ends of the plugboards are inserted into the third slots, the first lock rod penetrates through all the plugboards and the third slots, and a tray groove is formed between every two adjacent plugboards. The bottom of the plugboard is fixed on a third slot of the socket and is locked with the base through a first lock rod lock, the upper part of a material discharge tray groove formed by a plurality of plugboards is opened, and the material tray is inserted from the upper part or the front part of the material tray groove.

Preferably, the tray rack further comprises a second lock rod and spacer blocks, each tray groove is internally provided with the spacer block, the second lock rod is arranged above the base, and the second lock rod penetrates through all the plugboards and all the spacer blocks. The spacer block is used for separating two adjacent plugboards, and the second lock rod is used for locking a plurality of plugboards, so that the overall strength is improved.

Preferably, the tray comprises two wafers arranged at intervals, and windows are annularly distributed on each wafer. The number of the windows is multiple, the windows are annularly and uniformly distributed on the wafer, and the windows are used for taking and placing the material tray by fingers.

Preferably, the first clamping groove and the second clamping groove are grooves with V-shaped upper portions and circular bottom portions. The rotating shaft of the material tray is easy to enter and exit the first clamping groove and the second clamping groove, and the material is convenient to change.

Preferably, the upper part of the plugboard is provided with a circular arc-shaped plate extending towards the front side, and the second clamping groove is arranged on the circular arc-shaped plate. The tray placed on the second clamping groove protrudes forwards, so that the tray can be conveniently taken and placed from the front side.

By adopting the technical scheme, the utility model has the beneficial effects that: according to the utility model, two trays in two adjacent tray grooves are positioned, one tray is positioned in the first clamping groove to protrude upwards, the other tray is positioned in the second clamping groove to protrude forwards, and the two adjacent trays are fixed in a staggered manner, so that a worker can conveniently take and put the trays, and the material changing is convenient. And all trays can be orderly arranged in two rows in a staggered way and arranged on the tray frame, so that the structure is compact and the volume is small.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a tray frame according to the present utility model;

FIG. 3 is a schematic side view of the present utility model;

fig. 4 is a schematic structural view of the tray of the present utility model.

The main reference numerals illustrate:

a tray rack 1; a first slot 11; a second slot 12; a plugboard 13; a first card slot 131; a second clamping groove 132; a circular arc plate 133; a tray slot 14; a base 15; a third slot 151; a first lock lever 16; a second lock lever 17; spacer particles 18; a tray 2; a rotation shaft 21; wafer 22; a window 23.

Detailed Description

The utility model is further described below with reference to the drawings and specific examples.

As shown in fig. 1-4, the utility model relates to a self-positioning material rack for quickly replacing a material tray, which comprises a material tray rack 1 and a material tray 2. The tray rack 1 is provided with a first slot 11, a second slot 12 and a tray discharging groove 14.

The tray rack 1 comprises a base 15, a first lock rod 16, a second lock rod 17, a spacer block 18 and a plurality of plugboards 13. The base 15 is provided with a row of third slots 151, the plugboards 13 are arranged in a row, the lower ends of the plugboards 13 are inserted into the third slots 151, and each third slot is inserted with a plugboard. The first locking bar 16 passes through all the insertion plates 13 and the third insertion groove 151 to lock the lower ends of all the insertion plates 13 to the base. A tray slot 14 is formed between two adjacent insert plates 13. Each tray groove 14 is internally provided with a spacer 17, a second locking rod 18 is arranged above the base, and the second locking rod 18 penetrates through all the plugboards 13 and all the spacer 17 to lock all the plugboards. The upper portion of the insertion plate 13 is provided with a circular arc plate 133 protruding toward the front side, and the second card slot 132 is provided on the circular arc plate 133.

As shown in fig. 2, the first slot 11 is disposed at the top of the tray frame, the first slot 11 passes through all the tray slots 14 to form first clamping slots 131 on the left and right sides of each tray slot 14, and two adjacent tray slots 14 share one first clamping slot 131. The second slot 12 is arranged at the front part of the tray frame, and the second slot 12 passes through all the tray grooves 14 to form second clamping grooves 132 on the left side and the right side of each tray groove 14; two adjacent tray slots 14 share a second slot 132. The bottom of the first clamping groove 131 is higher than the bottom of the second clamping groove 132, and the bottom of the second clamping groove 132 is arranged at the front side of the bottom of the first clamping groove 131; the first clamping groove 311 and the second clamping groove 132 are grooves with V-shaped upper parts and round bottom parts.

As shown in fig. 2 and 4, both sides of the tray 2 are provided with outwardly extending shafts 21, and a part of the tray 2 may be inserted into the tray slot 14, and another part may be extended out of the tray holder 1. When the tray 2 is inserted into the tray slot, the rotating shafts 21 on two sides of the tray 2 can be simultaneously and rotatably clamped into the two first clamping slots 131, and the upper part of the tray extends out of the upper end of the tray frame 1. The rotating shafts 21 on the two sides of the material tray 2 can be simultaneously and rotatably clamped into the two second clamping grooves; at this time, the front part of the material tray extends out of the front end of the material tray frame. Two trays 2 in two adjacent tray grooves 14, wherein the two side rotating shafts of one tray 2 are simultaneously clamped into the first clamping groove, and the two side rotating shafts of the other tray 2 are simultaneously clamped into the second clamping groove. All trays are arranged in two rows on the tray rack. The tray 2 comprises two wafers 22 arranged at intervals, windows 23 are annularly distributed on each wafer 22, and fingers can extend into the windows to take and put the tray.

The trays 2 are alternately arranged on the tray frame 1 in two rows, one row is upwards arranged at the top of the protruding discharge tray frame, and the other row is arranged at the front end of the protruding discharge tray frame, so that the tray is convenient to take and place.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, which is defined by the appended claims.

Claims (6)

1. The material rack is characterized by comprising a material rack and a material tray, wherein the material rack is provided with a first slot, a second slot and a material tray discharge slot; the first slots are arranged at the top of the tray frame, penetrate through all the tray grooves and form first clamping grooves on the left side and the right side of each tray groove; the second slots are arranged at the front part of the tray frame, penetrate through all the tray slots and form second clamping slots on the left side and the right side of each tray slot; the bottom of the first clamping groove is higher than that of the second clamping groove, and the bottom of the second clamping groove is arranged at the front side of the bottom of the first clamping groove;

the two sides of the material tray are respectively provided with a rotating shaft extending outwards, one part of the material tray can be inserted into the material tray groove, the other part of the material tray extends out of the material tray frame, and when the material tray is inserted into the material tray groove, the rotating shafts at the two sides of the material tray can be simultaneously and rotatably clamped into the two first clamping grooves or the two second clamping grooves; two charging trays in two adjacent charging tray grooves, wherein the both sides pivot of one charging tray is blocked into first draw-in groove simultaneously, and the both sides pivot of another charging tray is blocked into the second draw-in groove simultaneously.

2. The material rack for self-positioning and quick-changing material trays according to claim 1, wherein the material rack comprises a base, a first lock rod and a plurality of insertion plates, a row of third slots are arranged on the base, the insertion plates are arranged in a row, the lower ends of the insertion plates are inserted into the third slots, the first lock rod penetrates through all the insertion plates and the third slots, and a material tray groove is formed between every two adjacent insertion plates.

3. The self-positioning quick-change tray frame according to claim 2, further comprising a second locking bar and spacer blocks, wherein each tray slot is provided with a spacer block, the second locking bar is disposed above the base, and the second locking bar passes through all the insert plates and all the spacer blocks.

4. The self-positioning quick-change tray of claim 1, wherein the tray comprises two spaced disks, each disk having a window annularly disposed thereon.

5. The self-positioning quick change tray of claim 1 wherein the first and second slots are each a V-shaped upper bottom circular groove.

6. The self-positioning quick-change tray as claimed in claim 1, wherein the upper part of the insert plate is provided with a circular arc plate extending forward, and the second clamping groove is formed in the circular arc plate.

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