CN220852764U - Automatic tally layer frame device, layer frame and refrigerator-freezer - Google Patents

Abstract

The utility model relates to an automatic tally layer rack device, a layer rack and a freezer, wherein the device comprises a slideway component and a tally power component, the slideway component is provided with two guide sliding areas, and the two guide sliding areas are arranged side by side along the length direction of the slideway component in a left-right separated manner; the tally power assembly is arranged between the two guide sliding areas and is assembled and fixed with the slideway assembly. Under the cooperation of the tally power assembly and the guide sliding area, goods placed on the slideway assembly can be automatically pushed to the front end of the slideway assembly along the guide sliding area, automatic tally is achieved, the tally power assembly and the two conveying slideways are of an integrated structure, installation and use of an automatic tally layer rack device are facilitated, a pushing unit can be directly detached at any time in the assembly process, convenience in assembly of the automatic tally layer rack device is improved, assembly difficulty is reduced, and assembly efficiency is improved.

Description

Automatic tally layer frame device, layer frame and refrigerator-freezer

Technical Field

The utility model belongs to the technical field of ice boxes, and particularly relates to an automatic goods-sorting layer rack device, a layer rack and an ice box.

Background

At present, a plurality of shelves are arranged in the refrigerator in the market, and an automatic tally driving mechanism is further arranged on some shelves. However, most of the automatic tally driving mechanisms are used as independent components and are directly installed and fixed on the shelf; therefore, the working procedure of assembling the layer rack is increased, the automatic tally driving mechanisms are complex in structure, and the production and processing difficulties are high.

Disclosure of utility model

In order to solve the problems in the prior art, the utility model provides an automatic tallying layer rack device.

In order to solve the technical problems, the utility model adopts the following technical scheme:

in a first aspect, the present utility model provides an automatic cargo layer rack device, comprising:

The slide way assembly is provided with two slide guiding areas, and the two slide guiding areas are arranged side by side along the length direction of the slide way assembly in a left-right separated manner;

And the tally power assembly is arranged between the two sliding guide areas and is assembled and fixed with the slideway assembly.

According to the technical scheme, automatic tallying can be achieved, the tallying power assembly and the two conveying slide ways are of an integrated structure, installation and use of the automatic tallying layer frame device are facilitated, the propulsion unit can be directly disassembled at any time in the assembly process, convenience in assembly of the automatic tallying layer frame device is improved, assembly difficulty is reduced, and assembly efficiency is improved.

Further, the slideway assembly comprises two conveying slideways, the two conveying slideways are arranged side by side with a gap therebetween, the tally power assembly is arranged in the gap and is at least assembled and connected with one of the conveying slideways, and the propulsion unit of the tally power assembly is exposed above the gap.

Further, the tally power assembly comprises a propulsion unit and a power piece;

The bottom of the pushing unit is provided with a sliding seat, the left side surface and the right side surface of the sliding seat are provided with sliding blocks, the outer side surfaces of the two conveying slideways, which are positioned at the gap, are provided with sliding grooves arranged along the length direction, the sliding seat is positioned in the gap, and the sliding blocks can be clamped in the sliding grooves in a back-and-forth sliding manner; or alternatively

The left side surface and the right side surface of the sliding seat are provided with sliding clamping grooves, the outer side surfaces of the two conveying slideways, which are positioned at the gaps, are provided with protruding sliding rails arranged along the length direction, the sliding seat is positioned in the gaps, and the sliding clamping grooves can be clamped on the protruding sliding rails in a back-and-forth sliding manner;

The power piece is arranged on the propulsion unit, one end of the power piece is connected to the front end of the slideway assembly, and power for the propulsion unit to move towards the front end of the slideway assembly is provided.

Further, the slideway assembly further comprises two connecting seats, and the front end and the rear end of the two conveying slideways are respectively assembled on the two connecting seats, so that the two conveying slideways and the two connecting seats form a whole; one end of the power piece is installed and fixed on a connecting seat at the front end of the slideway component.

Further, the upper surface of connecting seat has a plurality of bellied card posts that make progress, the both ends of carrying the slide all are equipped with the first through-hole that runs through upper and lower both ends, two the first through-hole of carrying the slide is assembled respectively on the card post that the connecting seat corresponds.

Further, the connecting seat at the front end of the slideway component is also provided with a hasp, the hasp is provided with a second through hole penetrating through the upper end and the lower end, the lower surface is provided with a hook part, the hook part extends into the gap and hooks one end of the power part positioned in the gap, and the second through hole is assembled on a clamping column corresponding to the connecting seat positioned between the two conveying slideways.

Further, the upper end surface of the clamping column is provided with a jack, the automatic tally layer rack device further comprises two side blocking pieces, and the front end and the rear end of each side blocking piece are respectively inserted into the corresponding jacks of the two connecting seats.

Further, one end of the hasp facing the propulsion unit is provided with a positioning part, the left end and the right end of the positioning part are respectively clamped in the sliding grooves of the two conveying sliding ways, the end face of the positioning part, which is opposite to the propulsion unit, is provided with a positioning through hole, and one end of the power piece passes through the positioning through hole in a matched manner and is hooked on the hook part.

In a second aspect, the present utility model further provides a shelf, which includes a chassis, and a plurality of the automatic cargo shelf devices are installed on the chassis.

In a third aspect, the present utility model further provides an ice chest, wherein the shelf in the ice chest is provided with the automatic tally shelf device.

The technical effects of each of the second aspect and the third aspect and the technical effects that may be achieved by each aspect are referred to above for the first aspect or the technical effects that may be achieved by each possible aspect in the first aspect, and the detailed description is not repeated here.

Drawings

FIG. 1 is a schematic view of an automated handling rack device according to an embodiment of the present utility model;

FIG. 2 is an enlarged schematic view of the portion A in FIG. 1;

FIG. 3 is a schematic view of a partial explosion structure of an automatic cargo layer rack device according to an embodiment of the present utility model;

FIG. 4 is a schematic view of the propulsion unit of the automated handling rack device according to the present utility model;

fig. 5 is a schematic view showing the structure of a buckle in an automatic cargo layer rack device according to the present utility model.

Reference numerals illustrate: 100. the device comprises a slideway component, 101, a guide sliding area, 102, a conveying slideway, 107, a first through hole, 108, a sliding chute, 103, a gap, 104, a connecting seat, 105, a clamping column, 113, an inserting hole, 106, a hasp, 109, a second through hole, 110, a hook part, 111, a positioning part, 112, a positioning through hole, 200, a tally power component, 201, a pushing unit, 202, a power piece, 203, a sliding seat, 204, a sliding block, 205 and a third through hole.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1, an automatic shelf management device according to the present utility model includes a slide assembly 100 and a management power assembly 200. The slide assembly 100 has two slide guiding areas 101, and the two slide guiding areas 101 are arranged side by side along the length direction of the slide assembly 100 (i.e. the front-back direction of the slide assembly) and are separated from each other; the cargo power assembly 200 is disposed between the two slide guiding areas 101 and is assembled and fixed with the slide assembly 100. According to the utility model, under the cooperation of the goods-sorting power assembly 200 and the slide guiding area 101, goods placed on the slide way assembly 100 can be automatically pushed to the front end of the slide way assembly 100 along the slide guiding area 101, so that automatic goods-sorting is realized.

In one possible implementation, as shown in fig. 1 and 2, the ramp assembly 100 includes two conveying ramps 102, the conveying ramps 102 are roller conveying ramps (or may be guide-slide conveying ramps), and the guide-slide area 101 is formed on the ramp assembly 100; the two conveying slides 102 are arranged side by side and separated, a gap 103 is formed between the two conveying slides, the tally power assembly 200 is installed in the gap 103 and is assembled and connected with at least one conveying slide 102, and a propulsion unit 201 of the tally power assembly 200 is exposed above the gap 103.

In particular, as shown in fig. 1-4, the tally power assembly 200 includes a propulsion unit 201 and a power member 202; the bottom of the propulsion unit 201 is provided with a sliding seat 203, the left and right side surfaces of the sliding seat 203 are provided with sliding blocks 204, the outer side surfaces of the two conveying slideways 102 at the gap 103 are provided with sliding grooves 108 arranged along the length direction (i.e. the front and rear directions of the conveying slideways 102), the sliding seat 203 is positioned in the gap 103, and the sliding blocks 204 are clamped in the sliding grooves 108 in a back and forth sliding manner; the power member 202 is disposed on the propulsion unit 201, and one end of the power member 202 is connected to the front end of the chute assembly 100, so as to power the propulsion unit 201 to move toward the front end of the chute assembly 100.

Through the scheme, on one hand, the integration of the tally power assembly 200 and the two conveying slide ways 102 is favorable for the installation and the use of the automatic tally layer rack device, and on the other hand, the propulsion unit 201 can be directly disassembled at any time in the assembly process, so that the convenience of the assembly of the automatic tally layer rack device is improved, the assembly difficulty is reduced, and the assembly efficiency is improved.

Preferably, the width of the bottom of the pushing unit 201 is greater than the width of the gap 103, the bottom of the pushing unit 201 is located outside the gap 103, and two ends of the pushing unit are located on the upper surfaces (the guiding sliding areas 101) of the conveying slides 102 on the left and right sides of the gap 103, and the pushing unit 201 and the sliding blocks 204 cooperate to enable the pushing unit 201 to move more stably, so that the automatic tally performance of the automatic tally layer rack device is improved.

As shown in fig. 1-3, the slide assembly 100 of the present utility model further includes two connection seats 104, and front and rear ends of the two conveying slides 102 are respectively assembled on the two connection seats 104, so that the two conveying slides 102 and the two connection seats 104 form a whole; one end of the power piece 202 is mounted and fixed on the connecting seat 104 at the front end of the slideway assembly 100, so that the integrity of the tally power assembly 200 and the two slideway assemblies 100 is effectively improved, and the reliability and stability of the automatic tally function of the tally power assembly 200 are further improved.

The specific structure can be as follows: the upper surface of the connection seat 104 is provided with a plurality of upward protruding clamping columns 105, two ends of the conveying slide 102 are respectively provided with a first through hole 107 penetrating through the upper end and the lower end, and the first through holes 107 of the two conveying slide 102 are respectively assembled on the corresponding clamping columns 105 of the connection seat 104.

The connecting seat 104 at the front end of the slideway assembly 100 is also provided with a hasp 106, the hasp 106 is provided with a second through hole 109 penetrating through the upper end and the lower end, the lower surface is provided with a hook part 110, the hook part 110 extends into the gap 103 and hooks one end of a power piece 202 positioned in the gap 103, as shown in fig. 1-3, the power piece 202 is a coil spring, one end of the coil spring is provided with a third through hole 205, and the hook part 110 penetrates through the third through hole 205 and hooks the inner hole edge of the third through hole 205; the second through hole 109 is assembled on the corresponding clamping post 105 of the connecting seat 104 between the two conveying slideways 102.

Wherein, the first through hole 107 and the second through hole 109 are tightly matched with the clamping column 105 (interference fit), or damping structures are arranged on the outer surface of the clamping column 105 or the wall of the first through hole 107 and the wall of the second through hole 109 (compared with that of arranging protruding points or damping rubber rings on the outer surface of the clamping column 105), so that the stability and the reliability of the assembly are ensured, and the convenience of disassembly is also ensured.

Therefore, through the scheme, on one hand, the processing difficulty and the processing precision can be reduced, the problem of the processing rejection rate of accessories is effectively reduced, on the other hand, the convenience of assembly and accessory replacement adjustment of the automatic tally layer rack device can be further improved, and on the other hand, the automatic tally performance of the automatic tally layer rack device can be stable and reliable.

Preferably, as shown in fig. 1, 2, 3 and 5, one end of the buckle 106 facing the pushing unit 201 is provided with a positioning portion 111, the left and right ends of the positioning portion 111 are respectively clamped in the sliding grooves 108 of the two conveying sliding ways 102, the end surface of the positioning portion 111 facing the pushing unit 201 is provided with a positioning through hole 112, and one end of the power member 202 passes through the positioning through hole 112 in a matching manner and is hooked on the hook portion 110. The positioning part 111 can enhance the assembly strength of the buckle 106 and the connecting seat 104, and can prevent the power piece 202 positioned in the gap 103 from being jumped to cause the power piece 202 to be released from the hook part 110 when the propulsion unit 201 moves forwards and backwards.

As shown in fig. 2 and 3, the upper end surface of the clamping column 105 is provided with a jack 113, the automatic tally layer rack device further comprises two side blocking pieces (not shown in the figure), and the front end and the rear end of each side blocking piece are respectively inserted into the corresponding jacks 113 of the two connecting seats 104; specifically, the side stoppers may be U-shaped bars, and the insertion holes 113 are circular holes concentric with the clamping posts 105, and both ends of the U-shaped bars are matingly inserted into the corresponding circular holes.

Of course, the left and right side surfaces of the sliding seat 203 of the present utility model may be provided with sliding clamping grooves, the outer side surfaces of the two conveying slideways 102 located at the gap 103 may also be provided with protruding sliding rails arranged along the length direction, and the sliding clamping grooves and the protruding sliding rails are preferably T-shaped grooves and T-shaped sliding rails that are matched with each other; during assembly, the sliding seat 203 is arranged in the gap 103, and the sliding clamping groove can be clamped on the convex sliding rail in a back-and-forth sliding manner, so that the device is convenient to install and stable and reliable to move.

The power member 202 may be a tension spring, and both ends of the tension spring are connected to the front end (the connection base 104) of the slide assembly 100 and the propulsion unit 201 (the sliding base 203), respectively.

The utility model also provides a layer rack, which comprises a bottom rack, wherein a plurality of automatic tally layer rack devices are arranged on the bottom rack, and the automatic tally layer rack devices can be specifically as follows: the underframe can be a net-shaped base, and a plurality of automatic tally layer rack devices which are arranged in parallel are arranged on the upper surface of the net-shaped base.

The utility model also provides an ice chest, the shelf in the ice chest is provided with the automatic goods-sorting shelf device, which can be specifically as follows: each layer of shelves of the refrigerator is provided with a plurality of automatic tally layer shelf devices in parallel, and at least one automatic tally layer shelf device can be arranged on at least one layer of shelves.

While the foregoing is directed to the preferred embodiments of the present utility model, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the utility model, such changes and modifications are also intended to be within the scope of the utility model.

Claims (10)

1. An automated tally rack apparatus, comprising:

The slideway assembly (100) is provided with two sliding guide areas (101), and the two sliding guide areas (101) are arranged side by side in a left-right separated manner along the length direction of the slideway assembly (100);

And the tally power assembly (200) is arranged between the two sliding guide areas (101) and is assembled and fixed with the slideway assembly (100) to form a whole.

2. The automated palletizing apparatus as claimed in claim 1, wherein the chute assembly (100) comprises two conveying chutes (102), the two conveying chutes (102) are disposed side by side with a gap (103) therebetween, the palletizing power assembly (200) is installed in the gap (103) and is assembled with at least one of the conveying chutes (102), and the propulsion unit (201) of the palletizing power assembly (200) is exposed above the gap (103).

3. The automated palletizing apparatus as claimed in claim 2, wherein the palletizing power assembly (200) comprises a propulsion unit (201) and a power member (202);

The bottom of the propulsion unit (201) is provided with a sliding seat (203), the left side surface and the right side surface of the sliding seat (203) are provided with sliding blocks (204), the outer side surfaces of the two conveying sliding ways (102) positioned at the gap (103) are provided with sliding grooves (108) arranged along the length direction, the sliding seat (203) is positioned in the gap (103), and the sliding blocks (204) can be clamped in the sliding grooves (108) in a back-and-forth sliding manner; or alternatively

The left side surface and the right side surface of the sliding seat (203) are provided with sliding clamping grooves, the outer side surfaces of the two conveying slideways (102) positioned at the gap (103) are provided with protruding sliding rails arranged along the length direction, the sliding seat (203) is positioned in the gap (103), and the sliding clamping grooves can be clamped on the protruding sliding rails in a back-and-forth sliding manner;

The power piece (202) is arranged on the propulsion unit (201), and one end of the power piece (202) is connected to the front end of the slideway assembly (100) to provide power for the propulsion unit (201) to move towards the front end of the slideway assembly (100).

4. The automated palletizing apparatus as claimed in claim 3, wherein the chute assembly (100) further comprises two connection seats (104), and the front and rear ends of the two conveying chutes (102) are respectively assembled on the two connection seats (104), so that the two conveying chutes (102) and the two connection seats (104) form a whole; one end of the power piece (202) is fixedly arranged on the connecting seat (104) at the front end of the slideway assembly (100).

5. The automatic tallying layer rack device according to claim 4, wherein the upper surface of the connecting seat (104) is provided with a plurality of upward protruding clamping columns (105), two ends of the conveying slide ways (102) are respectively provided with a first through hole (107) penetrating through the upper end and the lower end, and the first through holes (107) of the two conveying slide ways (102) are respectively assembled on the clamping columns (105) corresponding to the connecting seat (104).

6. The automatic shelf arrangement according to claim 5, characterized in that the connecting seat (104) at the front end of the slide assembly (100) further comprises a buckle (106), the buckle (106) is provided with a second through hole (109) penetrating through the upper end and the lower end, the lower surface is provided with a hook (110), the hook (110) extends into the gap (103) and hooks one end of the power piece (202) located in the gap (103), and the second through hole (109) is assembled on the corresponding clamping column (105) of the connecting seat (104) located between the two conveying slides (102).

7. The automatic tally layer rack device according to claim 5, wherein the upper end surface of the clamping column (105) is provided with a jack (113), the automatic tally layer rack device further comprises two side blocking pieces (300), and the front end and the rear end of each side blocking piece (300) are respectively inserted into the corresponding jacks (113) of the two connecting seats (104).

8. The automatic tally layer rack device according to claim 6, wherein one end of the hasp (106) facing the propulsion unit (201) is provided with a positioning portion (111), the left end and the right end of the positioning portion (111) are respectively clamped on the sliding grooves (108) of the two conveying sliding ways (102), the end face of the positioning portion (111) facing the propulsion unit (201) is provided with a positioning through hole (112), and one end of the power piece (202) passes through the positioning through hole (112) in a matched mode and is hooked on the hook portion (110).

9. A shelf characterized in that it comprises a chassis on which a plurality of the automated palletizing shelf devices according to any one of claims 1 to 8 are mounted.

10. An ice chest characterized in that the shelf in the ice chest is provided with an automatic tally shelf device according to any one of claims 1-8.