CN114868946B

CN114868946B - Separating material returning type block food forming die

Info

Publication number: CN114868946B
Application number: CN202210384154.XA
Authority: CN
Inventors: 陈军
Original assignee: Dongtai Hanyuan Food Machinery Manufacturing Co ltd
Current assignee: Dongtai Hanyuan Food Machinery Manufacturing Co ltd
Priority date: 2022-04-13
Filing date: 2022-04-13
Publication date: 2023-01-03
Anticipated expiration: 2042-04-13
Also published as: CN114868946A

Abstract

The invention discloses a separating material returning type block-shaped food forming die which comprises a base, a die plate, an elastic supporting mechanism, a material returning column and a separating and pressing mechanism, wherein the base is provided with a die plate; according to the invention, the relative floating or positioning state is selected between the base and the die plate through the separation pressing mechanism, when material returning is required, the relative floating between the base and the die plate is controlled, the whole structure is inverted, the base is pressed, the material returning column extends into the die groove to jack and press the material to return, and when normal processing is carried out, the positioning between the base and the die plate is controlled, so that the rotating scraping plate or pressing plate on the upper side of the die plate realizes stable scraping or pressing, thus flexible and variable operation modes and structural design are realized, and the material returning efficiency is improved.

Description

Separating material returning type block food forming die

Technical Field

The invention relates to a separating material returning type block food forming die.

Background

At present, the food processing field is rising day by day, various food processing machinery is researched and developed and manufactured, in current food processing, generally when needing the food of block, can be sometime with the cake through toast the heating stirring after, design in pouring this cake raw materials into the mould board, make the cake raw materials fill in the evenly distributed's in the mould board mould inslot, then means such as cooling make cake food stereotype, cubic food after the design is difficult to the material returned in the mould inslot of mould board, generally turn over through the mould and carry out the manpower and beat, so make mould material returned inefficiency, and can make food damage, so need design the mould plate structure, can not influence a series of operations such as scraping the material compaction after the raw materials powder gets into the mould board simultaneously.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the problems that: the separated material returning type block food forming die is efficient and convenient in material returning, and does not affect the operation of scraping and compacting materials after raw materials enter the die.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a separating material returning type block-shaped food forming die comprises a base, a die plate, an elastic supporting mechanism, a material returning column and a separating and pressing mechanism; a mould plate is arranged at the upper end of the base; a plurality of material returning columns are uniformly arranged at the upper end of the base; a plurality of die grooves are uniformly formed in the upper end face of the die plate; the bottom of the die groove is respectively provided with a communicated conduction groove; the upper ends of the material returning columns are respectively connected in the conduction grooves in a penetrating way; a plurality of elastic supporting mechanisms are uniformly arranged between the periphery of the lower end of the die plate and the periphery of the upper end of the base; the elastic supporting mechanism elastically extrudes and pushes the die plate upwards; the separation abutting mechanism comprises a driving rod, an inserting rod, a moving cylinder, a penetrating rod, a moving toothed plate, a driving gear and an abutting separation column; an adjusting groove is formed in the base; a moving cylinder is installed in the adjusting groove in a sliding and clamping mode; one end of the movable cylinder is internally screwed with an inserting rod through threads; the outer end of the insertion rod is provided with a driving rod, the outer end of the driving rod extends to the outside of one side of the base from one side of the adjusting groove, and the driving rod is rotationally clamped on the base; two penetrating rods are respectively installed on the upper side of the movable cylinder, and the outer ends of the penetrating rods are slidably penetrated and extended to the outside of the upper side of the base; the outer ends of the penetrating connecting rods are respectively provided with a movable toothed plate; the upper sides of the movable toothed plates are respectively connected with a driving gear in a meshing manner; the driving gears are respectively and rotationally clamped on the upper sides of the bases; one side of the middle of the front end of the driving gear is provided with an abutting separation column; the abutting separation column rotates upwards to abut against or rotates downwards to be separated and connected to the lower side of the die plate.

Further, the device also comprises a pre-buried support assembly; two embedded supporting components are respectively installed on two sides of the die plate; the embedded support assembly comprises a floating support plate, an extension rod, a floating plate and a driving screw rod; two sides of the die plate are respectively provided with an embedded channel, and the lower side of the embedded channel is provided with a driving groove; a floating support plate is inserted in each embedded channel; the lower ends of the floating support plates are respectively provided with an extension rod, the lower ends of the extension rods extend into the driving grooves, and the lower ends of the extension rods are provided with floating plates; a driving screw is arranged in the driving groove, and the upper end of the driving screw is rotationally clamped on the upper side wall of the driving groove; the driving screw is screwed on the floating plate.

Further, the elastic supporting mechanism comprises an abutting supporting rod, a supporting elastic body and a positioning sleeve; a plurality of positioning sleeves are uniformly arranged at the front and the back of two sides of the upper end of the base; a supporting elastic body is respectively arranged in the positioning sleeves; the lower ends of the abutting supporting rods are respectively clamped in the positioning sleeves in a sliding manner; the supporting elastic body elastically supports upwards and pushes the lower end of the supporting rod to move upwards.

Furthermore, limiting ring protrusions are arranged on the periphery of the lower end of the abutting support rod; the inner sides of the periphery of the upper end of the positioning sleeve are provided with positioning ring protrusions; the limiting ring is upwards abutted or downwards separated and connected to the lower side of the positioning ring.

Further, a guide positioning rod is arranged at the other end of the moving cylinder; the other side of the adjusting groove is provided with a guide positioning groove; the guide positioning rod is inserted in the guide positioning groove in a sliding manner.

Furthermore, the cross sections of the guide positioning rod and the guide positioning groove are both rectangular structures.

Furthermore, two strip-shaped through grooves are formed above the adjusting groove of the base, and the through rods are respectively connected onto one strip-shaped through groove in a sliding and penetrating mode.

Furthermore, the driving rod is provided with a rotary clamping tooth; a cross-connecting channel is arranged on one side of the adjusting groove of the base, and a rotary clamping ring groove is arranged on the cross-connecting channel; the outer end of the driving rod extends to the outer side of the base from the cross-connecting channel, and the rotary clamping tooth is rotatably clamped on the rotary clamping ring groove.

Furthermore, two fixed rods are arranged on the upper side of the base; the middle of the rear end face of the driving gear is rotatably clamped at the end part of one fixed rod respectively.

The invention has the following beneficial effects:

1. according to the invention, the relative floating or positioning state is selected between the base and the die plate through the separation pressing mechanism, when material returning is required, the relative floating between the base and the die plate is controlled, the whole structure is inverted, the base is pressed, the material returning column extends into the die groove to jack and press the material to return, and when normal processing is carried out, the positioning between the base and the die plate is controlled, so that the rotating scraping plate or pressing plate on the upper side of the die plate realizes stable scraping or pressing, thus flexible and variable operation modes and structural design are realized, and the material returning efficiency is improved.

2. The invention can realize convenient adjustment, and the adjustment process is as follows: through the rotation of actuating lever, drive the peg graft pole and rotate to make a removal section of thick bamboo slide in the adjustment tank, so drive the removal pinion rack through the cross-under bar and remove, thereby the interlock is rotating drive gear, so drive butt separation post upwards rotate to support to press or rotate the separation downwards and connect in the downside of mould board, realize the unsteady or location state between mould board and the base and adjust.

3. According to the invention, in the pre-buried support assembly, when material returning is needed, after the whole structure is inverted, the driving screw rod is rotated in advance to drive the floating plate to move, so that the floating support plate moves outwards from the pre-buried channel of the mould plate, the outer end of the floating support plate protrudes out of the outer side of the mould plate, so that the floating support plate can be used for supporting when inversion is carried out, the outer side of the mould plate is in a suspended state, a certain gap is reserved on the outer side of the mould plate for material returning, and the convenience of material returning is improved.

Drawings

FIG. 1 is a schematic view of the present invention.

Fig. 2 is a schematic view of the structure of the abutting separation column of the present invention rotating downward and separating from the underside of the mold plate.

Fig. 3 is a schematic structural view of the abutting separation column of the present invention rotating upward and abutting against the underside of the mold plate.

Fig. 4 is a partially enlarged structural view of fig. 2 according to the present invention.

Fig. 5 is an enlarged schematic structural view of the embedded support assembly and the elastic support mechanism of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 5, a separating and material-returning block-shaped food forming mold comprises a base 1, a mold plate 2, an elastic supporting mechanism 5, a material returning column 4 and a separating and pressing mechanism 3; a mould plate 2 is arranged at the upper end of the base 1; a plurality of material returning columns 4 are uniformly arranged at the upper end of the base 1; a plurality of mould grooves 21 are uniformly formed in the upper end face of the mould plate 2; the bottom of the die groove 21 is respectively provided with a communicating conduction groove 22; the upper ends of the material returning columns 4 are respectively connected in the conduction grooves 21 in a penetrating way; a plurality of elastic supporting mechanisms 5 are uniformly arranged between the periphery of the lower end of the die plate 2 and the periphery of the upper end of the base 1; the elastic supporting mechanism 5 elastically extrudes and pushes the die plate 2 upwards; the separation abutting-against mechanism 3 comprises a driving rod 33, an inserting rod 32, a moving cylinder 31, a penetrating rod 34, a moving toothed plate 35, a driving gear 36 and an abutting-against separation column 37; an adjusting groove 11 is formed in the base 1; a moving cylinder 31 is installed in the adjusting groove 11 in a sliding and clamping mode; one end of the movable cylinder 31 is internally screwed with an inserting rod 32; the outer end of the insertion rod 32 is provided with a driving rod 33, the outer end of the driving rod 33 extends from one side of the adjusting groove 11 to the outside of one side of the base 1, and the driving rod 33 is rotatably clamped on the base 1; two penetrating rods 34 are respectively installed on the upper side of the moving cylinder 31, and the outer ends of the penetrating rods 34 extend to the outside of the upper side of the base 1 in a sliding penetrating manner; the outer ends of the penetrating rods 34 are respectively provided with a movable toothed plate 35; the upper sides of the movable toothed plates 35 are respectively connected with a driving gear 36 in a meshing manner; the driving gears 36 are respectively and rotationally clamped on the upper side of the base 1; one side of the middle of the front end of the driving gear 36 is provided with an abutting separation column 37; the abutment-separation column 37 is rotated upward to be pressed against or rotated downward to be separated from the lower side of the die plate 2.

As shown in fig. 1 to 5, in order to realize that a material return gap is left after the whole device is inverted, the device further comprises a pre-embedded support assembly 6; two sides of the die plate 2 are respectively provided with an embedded support assembly 6; the embedded support assembly 6 comprises a floating support plate 61, an extension rod 62, a floating plate 63 and a driving screw 64; two sides of the die plate 2 are respectively provided with an embedded channel 23, and the lower side of the embedded channel 23 is provided with a driving groove 24; a floating support plate 61 is inserted into the embedded channel 23; the lower ends of the floating support plates 61 are respectively provided with an extension rod 62, the lower ends of the extension rods 62 extend into the driving groove 24, and the lower ends of the extension rods 62 are provided with floating plates 63; a driving screw 64 is arranged in the driving groove 24, and the upper end of the driving screw 64 is rotationally clamped on the upper side wall of the driving groove 24; the drive screw 64 is screwed to the floating plate 63.

As shown in fig. 1 to 5, in order to realize the floating support structure of the mold plate 2 and the base 1, further, the elastic support mechanism 5 includes an abutting support rod 51, a support elastic body 53, and a positioning sleeve 52; a plurality of positioning sleeves 52 are uniformly arranged at the front and the back of the two sides of the upper end of the base 1; a supporting elastic body 53 is respectively arranged in the positioning sleeve 52; the lower ends of the abutting support rods 51 are respectively clamped in the positioning sleeves 52 in a sliding manner; the support elastic body 53 elastically presses upward and pushes the lower end of the abutment support rod 51 to move upward.

As shown in fig. 1 to 5, further, a limiting ring protrusion 511 is arranged around the lower end of the abutting support rod 51; positioning ring protrusions 521 are arranged on the inner side of the periphery of the upper end of the positioning sleeve 52; the limiting ring protrusion 511 is connected to the lower side of the positioning ring protrusion 521 in an upward abutting or downward separating manner. Further, a guiding and positioning rod 311 is arranged at the other end of the moving cylinder 31; the other side of the adjusting groove 11 is provided with a guide positioning groove 13; the guiding and positioning rod 311 is inserted in the guiding and positioning groove 13 in a sliding manner. Further, the cross sections of the guiding and positioning rod 311 and the guiding and positioning groove 13 are both rectangular structures. Further, two strip-shaped through grooves are formed above the adjusting groove 11 of the base 1, and the through rods 34 are respectively connected to one strip-shaped through groove in a sliding and penetrating manner. Further, the driving rod 33 is provided with a rotary clamping tooth 331; a cross-connecting channel is arranged on one side of the adjusting groove 11 of the base 1, and a rotary clamping ring groove 12 is arranged on the cross-connecting channel; the outer end of the driving rod 33 extends to the outer side of the base 1 from the cross-connecting channel, and the rotary clamping teeth 331 are rotatably clamped on the rotary clamping ring groove 12. Further, two fixing rods 38 are arranged on the upper side of the base 1; the middle of the rear end surface of the driving gear 36 is rotatably clamped at the end of a fixing rod 38.

According to the invention, the separation pressing mechanism 3 is used for controlling the relative floating or positioning state between the base 1 and the die plate 2, when material returning is required, the relative floating between the base 1 and the die plate 2 is controlled, the whole structure is inverted, the base 1 is pressed, the material returning column 4 extends into the die groove 21 to push the material to return, and when normal processing is carried out, the positioning between the base 1 and the die plate 2 is controlled, so that stable material scraping or pressing is realized by the rotating material scraping plate or the material pressing plate on the upper side of the die plate 2, thus flexible and variable operation modes and structural design are realized, and the material returning efficiency is improved.

The invention can realize convenient adjustment, and the adjustment process is as follows: through the rotation of actuating lever 33, drive peg 32 and rotate to make a removal section of thick bamboo 31 slide in the adjustment tank, so drive the removal pinion rack 35 through the pole 34 that wears and remove, thereby interlock drive gear 36 and rotate, drive butt separation post 37 upwards rotate to offset or rotate the separation downwards and connect in the downside of mould board 2 like this, realize the unsteady or the positioning state between mould board 2 and the base 1 and adjust.

According to the invention, in the pre-buried support assembly 6, when material returning is needed, after the whole structure is inverted, the driving screw 64 is rotated in advance to drive the floating plate 63 to move, so that the floating support plate 61 moves outwards from the pre-buried channel 23 of the die plate 2, and the outer end of the floating support plate 61 protrudes out of the outer side of the die plate 2, so that the outer side of the die plate 2 is in a suspended state by supporting through the floating support plate 61 when inversion is carried out, and a certain gap is left on the outer side of the die plate 2 for material returning, thereby improving the convenience of material returning.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, which is intended to cover any modifications, equivalents, improvements, etc. within the spirit and scope of the present invention.

Claims

1. A separating and material returning type block-shaped food forming die is characterized by comprising a base, a die plate, an elastic supporting mechanism, a material returning column and a separating and pressing mechanism; a mould plate is arranged at the upper end of the base; a plurality of material returning columns are uniformly arranged at the upper end of the base; a plurality of die grooves are uniformly formed in the upper end face of the die plate; the bottom of the die groove is respectively provided with a communicated conduction groove; the upper ends of the material returning columns are respectively connected in the conduction grooves in a penetrating way; a plurality of elastic supporting mechanisms are uniformly arranged between the periphery of the lower end of the die plate and the periphery of the upper end of the base; the elastic supporting mechanism elastically extrudes and pushes the die plate upwards; the separation abutting mechanism comprises a driving rod, an inserting rod, a moving cylinder, a penetrating rod, a moving toothed plate, a driving gear and an abutting separation column; an adjusting groove is formed in the base; a movable barrel is installed in the adjusting groove in a sliding clamping mode; one end of the movable cylinder is internally screwed with an inserting rod through threads; the outer end of the insertion rod is provided with a driving rod, the outer end of the driving rod extends to the outside of one side of the base from one side of the adjusting groove, and the driving rod is rotationally clamped on the base; two penetrating rods are respectively installed on the upper side of the movable cylinder, and the outer ends of the penetrating rods are slidably penetrated and extended to the outside of the upper side of the base; the outer ends of the penetrating connecting rods are respectively provided with a movable toothed plate; the upper sides of the movable toothed plates are respectively connected with a driving gear in a meshing manner; the driving gears are respectively and rotationally clamped on the upper sides of the bases; one side of the middle of the front end of the driving gear is provided with an abutting separation column; the abutting separation column rotates upwards to abut against and is connected with or rotates downwards to separate from the lower side of the die plate; the device also comprises a pre-buried supporting component; two sides of the die plate are respectively provided with an embedded support component; the embedded support assembly comprises a floating support plate, an extension rod, a floating plate and a driving screw rod; two sides of the die plate are respectively provided with an embedded channel, and the lower side of the embedded channel is provided with a driving groove; a floating support plate is inserted in each embedded channel; the lower ends of the floating support plates are respectively provided with an extension rod, the lower ends of the extension rods extend into the driving grooves, and the lower ends of the extension rods are provided with floating plates; a driving screw is arranged in the driving groove, and the upper end of the driving screw is rotationally clamped on the upper side wall of the driving groove; the driving screw is screwed on the floating plate.

2. The mold for forming a food bar according to claim 1, wherein the elastic support mechanism comprises an abutting support rod, a support elastic body, and a positioning sleeve; a plurality of positioning sleeves are uniformly arranged at the front and the back of two sides of the upper end of the base; a supporting elastic body is respectively arranged in the positioning sleeves; the lower ends of the abutting support rods are respectively clamped in the positioning sleeves in a sliding manner; the supporting elastic body elastically supports upwards and pushes the lower end of the supporting rod to move upwards.

3. The mold for molding the separated material-returning block-shaped food according to claim 2, wherein a limiting ring is arranged around the lower end of the abutting support rod; the inner sides of the periphery of the upper end of the positioning sleeve are provided with positioning ring protrusions; the limit ring protrusion is upwards abutted or downwards separated from the lower side of the positioning ring protrusion.

4. The mold for forming food in block form with separated material returned according to claim 1, wherein the other end of the movable cylinder is provided with a guiding and positioning rod; the other side of the adjusting groove is provided with a guide positioning groove; the guide positioning rod is inserted in the guide positioning groove in a sliding mode.

5. The mold according to claim 4, wherein the guide positioning rod and the guide positioning groove have a rectangular cross section.

6. The mold for forming a food bar as claimed in claim 1, wherein two bar-shaped through-connecting slots are provided above the adjusting slot of the base, and the through-connecting rods are slidably inserted into one bar-shaped through-connecting slot respectively.

7. The mold for forming a food bar as claimed in claim 1, wherein the driving rod is provided with a rotary engaging tooth; a cross-connecting channel is arranged on one side of the adjusting groove of the base, and a rotary clamping ring groove is arranged on the cross-connecting channel; the outer end of the driving rod extends to the outer side of the base from the cross-connecting channel, and the rotary clamping tooth is rotatably clamped on the rotary clamping ring groove.

8. The mold for forming a food bar as claimed in claim 1, wherein two fixing rods are provided on the upper side of the base; the middle of the rear end face of the driving gear is rotatably clamped at the end part of one fixed rod respectively.