阅读说明：本技术 一种可移动式多层食品生产设备 (Movable multilayer food production facility ) 是由 林嘉雪 于 2021-07-22 设计创作，主要内容包括：本发明公开了一种可移动式多层食品生产设备,其结构包括干燥主机、控制面板、箱门、移动轮,干燥主机前上端面嵌固安装有控制面板,并且干燥主机前下端面设有箱门,滑块卡入限位卡合槽内部,通过滑动球起到辅助滑动,承载板能够在定位球上进行点位摆动,而食品的底部与褶皱板进行镂空抵触,上顶块推动褶皱板上下移动,对食品施加弹性抖动,避免食品干燥过程中发生粘结,通过导向板底部对水蒸气进行上浮导向,往排气孔的方向上进行排出,同时部分的水蒸气遇冷形成水珠,通过导向板上端进行导向,将水珠全部导向排入集水槽内部,从而将水珠进行集中收集,避免水珠滴落到食品表面,提高食品的干燥力度。(The invention discloses movable multilayer food production equipment, which structurally comprises a drying main machine, a control panel, a box door and moving wheels, wherein the control panel is fixedly embedded on the front upper end surface of the drying main machine, the box door is arranged on the front lower end surface of the drying main machine, a sliding block is clamped into a limiting clamping groove and slides in an auxiliary manner through a sliding ball, a bearing plate can swing in a point position on a positioning ball, the bottom of food is in hollow-out collision with a fold plate, an upper top block pushes the fold plate to move up and down to apply elastic shaking to the food to avoid bonding in the food drying process, water vapor is upwards floated and guided through the bottom of a guide plate and is discharged in the direction of an exhaust hole, meanwhile, part of water vapor is cooled to form water drops, the water drops are guided through the upper end of the guide plate, all the water drops are guided to be discharged into a water collecting groove, so that the water drops are collected in a centralized manner and prevented from dropping on the surface of the food, improve the drying strength of the food.)

1. The utility model provides a movable multilayer food production facility, its structure includes drying host (1), control panel (2), chamber door (3), removes wheel (4), control panel (2) are installed to the up end embedded solid before drying host (1) to the terminal surface is equipped with chamber door (3) down before drying host (1), remove wheel (4) and install in drying host (1) bottom four corners, its characterized in that:

drying host (1) includes mainframe box (11), fan (12), exhaust pipe (13), placement mechanism (14), collects mechanism (15), removal wheel (4) are installed in mainframe box (11) bottom four corners, inside upper end fixed mounting of mainframe box (11) has fan (12) to fan (12) upper end and exhaust pipe (13) lower extreme build-in installation, exhaust pipe (13) upper end is built-in and is installed inside and link up mutually in mainframe box (11) upper left end, placement mechanism (14) are established inside mainframe box (11), it installs inside mainframe box (11) to collect mechanism (15) build-in to it link up mutually with fan (12) lower extreme to collect mechanism (15) top middle-end, it is located placement mechanism (14) directly over to collect mechanism (15).

2. A mobile multi-layer food production facility according to claim 1, wherein: the placing mechanism (14) comprises a limiting clamping groove (141), a sliding and swinging mechanism (142) and a bearing mechanism (143), the outer side end of the limiting clamping groove (141) is welded and fixed with the inside of the mainframe box (11), the sliding and swinging mechanism (142) is slidably mounted inside the limiting clamping groove (141), and the outer side end of the sliding and swinging mechanism (142) is fixed with the outer side end of the bearing mechanism (143).

3. A mobile multi-layer food production facility according to claim 2, wherein: the sliding swing mechanism (142) comprises a sliding block (42a), a sliding ball (42b) and a guide rod (42c), the sliding block (42a) is slidably mounted inside the limiting clamping groove (141), the sliding ball (42b) is mounted inside the outer side of the sliding block (42a) in a clearance fit mode, the inner side end of the sliding block (42a) is fixed to the outer side end of the bearing mechanism (143), and the guide rod (42c) penetrates through the inside of the sliding block (42a) in a clearance fit mode.

4. A mobile multi-layer food production facility according to claim 3, wherein: the bearing mechanism (143) comprises a fixed clamping plate (43a), a sliding rod (43b), a positioning ball (43c), a bearing plate (43d), an upward pushing mechanism (43e) and an air guide hole (43f), the lower end of the sliding rod (43b) is slidably mounted inside the upper end of the fixed clamping plate (43a), the positioning ball (43c) is welded at the top of the sliding rod (43b), the positioning ball (43c) is mounted at the inner middle end of the bearing plate (43d) in a clearance fit mode, the upward pushing mechanism (43e) is arranged inside the upper end of the bearing plate (43d), the air guide hole (43f) penetrates through the inside of the bearing plate (43d), and the outer end of the bearing plate (43d) is fixed with a sliding block (42 a).

5. A mobile multi-layer food production plant according to claim 4, characterized in that: go up top mechanism (43e) including fold board (e1), go up top piece (e2), spring (e3), fold board (e1) are located loading board (43d) upper end inside, go up top piece (e2) and weld in fold board (e1) bottom, it has spring (e3) to go up top piece (e2) bottom welding.

6. A mobile multi-layer food production facility according to claim 1, wherein: collect mechanism (15) including division board (151), exhaust hole (152), water catch bowl (153), deflector (154), one-way drainage mechanism (155), division board (151) weld inside mainframe box (11) to exhaust hole (152) run through in division board (151) inside middle-end, water catch bowl (153) are established in division board (151) outside bottom, water catch bowl (153) medial extremity welding has deflector (154), water catch bowl (153) outside lower extreme is equipped with one-way drainage mechanism (155).

7. A mobile multi-layer food production plant according to claim 6, characterized in that: the one-way drainage mechanism (155) comprises a drainage hole (55a), a torsion shaft (55b) and an opening and closing plate (55c), wherein the drainage hole (55a) penetrates through the inner part of the lower end of the outer side of the water collecting tank (153), and the upper end of the inner part of the drainage hole (55a) is hinged with the upper end of the opening and closing plate (55c) through the torsion shaft (55 b).

Technical Field

The invention relates to the field of food safety production, in particular to movable multilayer food production equipment.

Background

Food is in the process of production, drying equipment is required to be used for drying food, vacuum drying equipment is used in the process of drying food through production, the boiling point of moisture is reduced in the vacuum state, low-temperature operation is carried out, nutritional ingredients can be prevented from being damaged under the high-temperature condition, however, because the vacuum drying equipment is in the process of drying, the interior of the vacuum drying equipment is kept in vacuum, a placing rack for the food is always kept stable, the food is gradually dehydrated in the drying process, the dehydrated food is easy to be bonded with the surface of the placing rack, so that the food and the contact surface of the placing rack are caked, the food is difficult to take down from the placing rack, meanwhile, water vapor formed by moisture drying is collected, the water vapor continuously floats upwards in the vacuum drying equipment, and water beads are formed on the top end of the vacuum drying equipment when the floating water vapor is cooled, dripping on the surface of the food to reduce the drying strength of the food.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the movable multilayer food production equipment structurally comprises a drying host, a control panel, a box door and movable wheels, wherein the control panel is fixedly installed on the front upper end face of the drying host, the box door is arranged on the front lower end face of the drying host, the movable wheels are installed on four corners of the bottom of the drying host, the drying host comprises a host box, a fan, an exhaust pipe, a placement mechanism and a collection mechanism, the movable wheels are installed on four corners of the bottom of the host box, the fan is fixedly installed at the upper end of the inside of the host box, the upper end of the fan is fixedly installed at the lower end of the exhaust pipe, the upper end of the exhaust pipe is fixedly installed inside the upper left end of the host box and communicated with the upper left end of the host box, the placement mechanism is arranged inside the host box, the collection mechanism is fixedly installed inside the host box, the middle end of the top of the collection mechanism is communicated with the lower end of the fan, and the collection mechanism is positioned right above the placement mechanism, the placing mechanisms are three in number and are distributed inside the mainframe box at equal intervals in the vertical direction.

As a further improvement of the invention, the placing mechanism comprises a limiting clamping groove, a sliding and swinging mechanism and a bearing mechanism, the outer side end of the limiting clamping groove is welded and fixed with the inside of the mainframe box, the sliding and swinging mechanism is slidably installed in the limiting clamping groove, the sliding and swinging mechanism is fixed with the outer side end of the bearing mechanism, and the two sliding and swinging mechanisms are respectively installed at the left end and the right end of the outer side of the bearing mechanism.

As a further improvement of the invention, the sliding and swinging mechanism comprises slide blocks, slide balls and guide rods, wherein the slide blocks are slidably mounted inside the limiting clamping grooves, the slide balls are mounted inside the outer sides of the slide blocks in a clearance fit manner, the inner side ends of the slide blocks are fixed with the outer side ends of the bearing mechanism, the guide rods penetrate through the inside of the slide blocks in a clearance fit manner, the slide balls are distributed inside the outer sides of the slide blocks at equal intervals, the sliding smoothness of the slide blocks in the limiting clamping grooves is improved, and the guide rods are arc-shaped and four and penetrate through the inside of the slide blocks at equal intervals.

As a further improvement of the invention, the bearing mechanism comprises a fixed clamping plate, a sliding rod, a positioning ball, a bearing plate, an upward pushing mechanism and an air guide hole, wherein the lower end of the sliding rod is slidably arranged inside the upper end of the fixed clamping plate, the positioning ball is welded at the top of the sliding rod, the positioning ball is arranged at the middle end inside the bearing plate in a clearance fit manner, the upward pushing mechanism is arranged inside the upper end of the bearing plate, the air guide hole penetrates through the inside of the bearing plate, the outer side end of the bearing plate is fixed with a sliding block, and the air guide hole is in a cavity round table structure with a wide lower part and a narrow upper part.

As a further improvement of the invention, the upper jacking mechanism comprises a corrugated plate, an upper jacking block and a spring, the corrugated plate is positioned inside the upper end of the bearing plate, the upper jacking block is welded at the bottom of the corrugated plate, the spring is welded at the bottom of the upper jacking block, the corrugated plate is in a long strip folded angle structure, and the folded angle of the bottom is provided with the upper jacking block and the spring.

As a further improvement of the invention, the collecting mechanism comprises a partition plate, an exhaust hole, a water collecting tank, a guide plate and a one-way drainage mechanism, the partition plate is welded in the main case, the exhaust hole penetrates through the middle end of the partition plate, the water collecting tank is arranged at the bottom of the outer side of the partition plate, the guide plate is welded at the inner side end of the water collecting tank, the one-way drainage mechanism is arranged at the lower end of the outer side of the water collecting tank, and the guide plate is arranged at the inner side end of the water collecting tank in an inclined angle with the inner side end higher than the outer side end lower.

The one-way drainage mechanism comprises a drainage hole, a torsion shaft and an opening and closing plate, wherein the drainage hole penetrates through the inner part of the lower end of the outer side of the water collecting tank, the upper end of the inner part of the drainage hole is hinged with the upper end of the opening and closing plate through the torsion shaft, the lower end of the opening and closing plate is in a rounded structure, and the lower end of the inner part of the drainage hole is in contact with the lower end of the opening and closing plate to form a clamping state.

The invention has the beneficial effects that:

1. inside the spacing block inslot of slider card income, play supplementary slip through the sliding ball, the arc direction through the guide bar and the clearance of the existence between location ball and the loading board to make the loading board carry out the position swing on the ball of location, and the bottom of food carries out the fretwork with the fold board and contradicts, goes up the kicking block and promotes the fold board and reciprocates, applys the elastic jitter to food, avoids taking place to bond among the food drying process.

2. Go on the come-up direction to vapor through the deflector bottom, discharge on the direction in toward exhaust hole, the vapor of part meets cold formation drop of water simultaneously, leads through the deflector upper end, with inside the drop of water whole direction discharges into the water catch bowl to concentrate the collection with the drop of water, avoid the drop of water drippage to the food surface, improve the drying force degree of food.

Drawings

FIG. 1 is a schematic structural diagram of a mobile multi-layer food production apparatus according to the present invention.

Fig. 2 is a schematic diagram of an internal structure of a drying machine according to the present invention.

Fig. 3 is a schematic structural diagram of a placement mechanism of the present invention.

Fig. 4 is a schematic perspective view of a sliding pendulum mechanism according to the present invention.

Fig. 5 is a schematic view of an internal structure of a carrying mechanism according to the present invention.

Fig. 6 is a schematic structural diagram of a jack-up mechanism according to the present invention.

Fig. 7 is a schematic view of the internal structure of a collecting mechanism according to the present invention.

Fig. 8 is a partial enlarged structural diagram of a one-way drainage mechanism at a position a in the invention.

In the figure: a drying host machine-1, a control panel-2, a box door-3, a moving wheel-4, a host machine box-11, a fan-12, an exhaust pipe-13, a placing mechanism-14, a collecting mechanism-15, a limiting clamping groove-141, a sliding and swinging mechanism-142, a bearing mechanism-143, a slide block-42 a, a slide ball-42 b, a guide rod-42 c, a fixed clamping plate-43 a, a slide rod-43 b, a positioning ball-43 c, a bearing plate-43 d, an upper jacking mechanism-43 e, an air guide hole-43 f, a corrugated plate-e 1, an upper jacking block-e 2, a spring-e 3, a separation plate-151, an air exhaust hole-152, a water collecting groove-153, a guide plate-154, a one-way water drainage mechanism-155, a water drainage hole-55 a, a water outlet-55 a, A torsion shaft-55 b and an opening and closing plate-55 c.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention relates to movable multilayer food production equipment, which structurally comprises a drying main machine 1, a control panel 2, a box door 3 and movable wheels 4, wherein the control panel 2 is fixedly embedded on the front upper end surface of the drying main machine 1, the box door 3 is arranged on the front lower end surface of the drying main machine 1, the movable wheels 4 are arranged at four corners of the bottom of the drying main machine 1, the drying main machine 1 comprises a main machine box 11, a fan 12, an exhaust pipe 13, a placing mechanism 14 and a collecting mechanism 15, the movable wheels 4 are arranged at four corners of the bottom of the main machine box 11, the fan 12 is fixedly arranged at the upper end of the inner part of the main machine box 11, the upper end of the fan 12 is fixedly embedded and arranged with the lower end of the exhaust pipe 13, the upper end of the exhaust pipe 13 is fixedly arranged and communicated with the inner part of the left upper end of the main machine box 11, the placing mechanism 14 is arranged in the main machine box 11, the collecting mechanism 15 is fixedly arranged in the main machine box 11, and the middle end of the top of the collecting mechanism 15 is communicated with the lower end of the fan 12, collect mechanism 15 and be located directly over placing mechanism 14, placing mechanism 14 is equipped with threely altogether to vertical equidistance distributes inside mainframe box 11, improves the independent placement to food.

The placing mechanism 14 includes a limiting engaging groove 141, a sliding and swinging mechanism 142, and a bearing mechanism 143, an outer side end of the limiting engaging groove 141 is welded and fixed with the inside of the main chassis 11, the sliding and swinging mechanism 142 is slidably mounted inside the limiting engaging groove 141, the sliding and swinging mechanism 142 is fixed with an outer side end of the bearing mechanism 143, and the two sliding and swinging mechanisms 142 are respectively mounted at the left and right ends outside the bearing mechanism 143 to ensure that the two ends outside the bearing mechanism 143 are subjected to limiting swinging.

Wherein, the pendulum mechanism 142 includes slider 42a, sliding ball 42b, guide bar 42c, slider 42a slidable mounting is inside at spacing block groove 141, slider 42a installs sliding ball 42b in the inside clearance fit that adopts in the outside to slider 42a medial extremity is fixed with the mechanism 143 outside end that bears, slider 42a is inside to adopt clearance fit to run through guide bar 42c, sliding ball 42b is equipped with threely altogether to the equidistance distributes inside the slider 42a outside, improves slider 42a at the inside gliding smooth and easy degree of spacing block groove 141, guide bar 42c is the arc structure to be equipped with four, the equidistance runs through inside slider 42a, does benefit to the arc guide swing to slider 42 a.

The bearing mechanism 143 includes a fixed clamping plate 43a, a sliding rod 43b, a positioning ball 43c, a bearing plate 43d, an upward pushing mechanism 43e, and an air guide hole 43f, the lower end of the sliding rod 43b is slidably mounted inside the upper end of the fixed clamping plate 43a, the positioning ball 43c is welded on the top of the sliding rod 43b, the positioning ball 43c is mounted at the middle end inside the bearing plate 43d in a clearance fit manner, the upward pushing mechanism 43e is arranged inside the upper end of the bearing plate 43d, the air guide hole 43f penetrates through the inside of the bearing plate 43d, the outer end of the bearing plate 43d is fixed with the sliding block 42a, and the air guide hole 43f is a hollow circular table structure with a wide bottom and narrow top, so that the lower steam can be guided upwards to be discharged, and the steam backflow is avoided.

Wherein, it includes fold board e1, goes up top piece e2, spring e3 to go up top mechanism 43e, fold board e1 is located loading board 43d upper end inside, it welds in fold board e1 bottom to go up top piece e2, it has spring e3 to go up top piece e2 bottom welding, fold board e1 is rectangular dog-ear column structure to the dog-ear department of bottom all is equipped with one and goes up top piece e2 and spring e3, improves the fretwork support to food, and the while is applyed the elasticity shake to food at dry in-process, improves the drying strength of food.

The specific use mode and function of the embodiment are as follows:

in the invention, the door 3 is opened, food to be dried is placed on the upper jacking mechanism 43e, then the food is clamped into the inner part of the upper end of the fixed clamping plate 43a through the lower end of the sliding rod 43b to move, meanwhile, the slide block 42a is clamped into the inner part of the limit clamping groove 141, and auxiliary sliding is realized through the sliding ball 42b, so that the smoothness of the slide block 42a sliding in the limit clamping groove 141 is improved, after the bearing plate 43d is placed into the main case 11, the door 3 is closed, then the main case 11 is started through the control panel 2 to carry out drying work, in the drying process, the bearing plate 43d can carry out point position swing on the positioning ball 43c through the arc-shaped guide of the guide rod 42c and the gap existing between the positioning ball 43c and the bearing plate 43d, while swinging, the bottom of the food is in hollow-out collision with the e1, and elastic deformation occurs through the spring e3, thereby make last kicking block e2 promote fold board e1 and reciprocate, exert the elasticity shake to food, avoid taking place to bond among the food drying process, improve the dry dynamics of food simultaneously, and dry vapor is floated up through air guide hole 43 f.

Example 2:

as shown in fig. 7 to 8:

wherein, collect mechanism 15 including division board 151, exhaust hole 152, water catch bowl 153, deflector 154, one-way drainage mechanism 155, division board 151 welds inside mainframe box 11 to exhaust hole 152 runs through in the inside middle-end of division board 151, water catch bowl 153 is established in division board 151 outside bottom, the welding of water catch bowl 153 medial extremity has deflector 154, water catch bowl 153 outside lower extreme is equipped with one-way drainage mechanism 155, deflector 154 is the high low inclination angle of outside end of medial extremity and installs at water catch bowl 153 medial extremity, does benefit to and will meet inside the drop guide that cold formed drains into water catch bowl 153, prevents that the drop from dropping down.

The one-way drainage mechanism 155 includes a drainage hole 55a, a torsion shaft 55b, and an opening/closing plate 55c, the drainage hole 55a penetrates through the inside of the outer lower end of the water collection tank 153, the inner upper end of the drainage hole 55a is hinged to the upper end of the opening/closing plate 55c through the torsion shaft 55b, the lower end of the opening/closing plate 55c is in a rounded structure, and the inner lower end of the drainage hole 55a and the lower end of the opening/closing plate 55c are in contact with each other to form a clamping state, so that the opening/closing plate 55c is opened one-way outwards to prevent external dust from entering the main case 11.

The specific use mode and function of the embodiment are as follows:

in the invention, the lower part of the steam is pumped up to the exhaust pipe 13 by the rotation of the fan 12, the steam floats upwards, in the floating process, the steam is upwards floated and guided by the bottom of the guide plate 154 and discharged towards the direction of the exhaust hole 152, meanwhile, part of the steam is contacted with the bottom of the separation plate 151 to form water drops when meeting cold, the water drops slide down along the outer wall of the water collecting tank 153, the water drops are guided by the upper end of the guide plate 154 and are all guided and discharged into the water collecting tank 153, so that the water drops are intensively collected, the water drops are prevented from dropping on the surface of the food, the drying strength of the food is improved, then the water pressure is received in the water collecting tank 153, the opening and closing plate 55c is pushed to be opened in one way towards the outer side, the water drops are discharged out of the main case 11 from the exhaust hole 55a, and the opening and closing plate 55c is driven to automatically reset by the torsion shaft 55b after the water drops are discharged, thereby sealing the drain hole 55a and preventing external dust from entering the inside of the main cabinet 11.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.